Parental Perceptions o f  C haracteristics and O utcom es o f  C hildren and Fam ilies in the Pretoria C ochlear Im plant Program m e 47

PARENTAL PERCEPTIONS OF CHARACTERISTICS AND OUTCOMES OF CHILDREN 
AND FAMILIES IN THE PRETORIA COCHLEAR IMPLANT PROGRAMME

Marguerite Jessop, Alta Kritzinger and Nellie Venter

Department o f  Communication Pathology 
University o f  Pretoria

ABSTRACT

In order to address the Pretoria Cochlear Implant Programme’s (PCIP) need fo r  an in-depth analysis o f  the variables related to 
outcomes o f  children with cochlear implants and their families, a comprehensive postal questionnaire was used in a cross-sectional 
study employing quantitative methods. The aim was to determine the perceptions o f  parents/caregivers o f  children with cochlear 
implants in the PCIP o f  the children's outcomes, and to collate relevant data pertaining to 45 children and their families. Results 
indicated that several key factors played a role in determining a positive outcome in the children’s audiological, linguistic, social 
and educational functioning leading to placement in an inclusive educational setting. The most important indicators were: early 
age at diagnosis, early intervention with hearing aids and early cochlear implantation. The importance o f  early intervention is em­
phasized. The study was a first attempt to document the outcomes o f  the PCIP, indicating a need to establish a computer database 
to store data o f  all clients, which can be usedfor research and regular programme audits.

Keywords: Cochlear implant programme, outcomes, early intervention, variables affecting success, inclusive education, specialized 
education

IN TRO D U CTIO N

Since the advent o f cochlear implantation in children in the mid 
1980’s, remarkable progress has been made in the technology 
o f the device and its speech processor, in surgical techniques 
and in intervention programmes (Clark, Cowan & Dowell,
1997). Infants are now being implanted at increasingly younger 
ages (Wright, Purcell & Reed, 2002). This places a paediatric 
cochlear implant programme firmly within the realm o f early 
communication intervention (ECI) services. Thus, in such a 
programme as with all ECI programmes, families are o f the 
utmost importance as many biological and environmental fac­
tors play a role in the child’s progress (Rossetti, 2001). A ma­
jo r goal o f ECI is early identification o f risk factors for com­
munication delay, including hearing impairment. There is a 
worldwide trend toward eariy identification o f hearing loss in 
infants and children (Wright et al., 2002). Families and their 
children are therefore entering cochlear implant programmes 
earlier. In order to best utilise this time advantage (Mayne, Yo- 
shinaga-Itano & Sedey, 2000), it is necessary that cochlear 
assessment protocols be fast, efficient and family-centred and 
that motivation for funding be handled quickly and effectively 
to decrease the time delay between the family’s initial contact 
with the cochlear team and approval for a cochlear implant, and 
between approval and implantation. The best possible early 
rehabilitation services must then follow, therefore opening the 
possibility for placement o f the child in inclusive education 
instead o f special education.

The outcomes o f an intervention such as a paediatric 
cochlear implantation are largely dependent on the family con­
text in which the child finds him/herself (Rossetti, 2001). The 
selection criteria for implantation o f children take into consid­
eration the child’s support network (Katz, Burkard & Medwet- 
sky, 2002), thus ruling out many children who would not have 
derived benefit from the implant due to a lack of follow-up 
support. Once enrolled in the cochlear implant programme, 
however, it is imperative that the family be kept involved 
throughout the entire process.

Rossetti (2001) supports the idea o f utilising parental 
report and o f viewing the parents as accurate sources o f infor­
mation. This approach is in accordance with the notion of fam­

ily centered assessment, which serves as a tool to include the 
family as team members, rally their co-operation, empower 
them as informed decision makers and thereby ensure their 
continued involvement in the programme. Increased levels of 
parental involvement also serve to enable parents to better ful­
fill their role as advocates for their children (Moog, 2002).

The Pretoria Cochlear Implant Programme (PCIP) had 
been operating for over a decade, and thus the gathering of 
descriptive data regarding this rapidly growing and changing 
population o f patients was imperative for ongoing research, 
information sharing and efficacy of service delivery to families. 
There is increased pressure for outcome studies, or programme 
audits, to justify the cost of cochlear implantation and to dem­
onstrate accountability for this cost in terms of efficacy 
(Summerfield & Marshall, 1999). If there is to be state subsi­
dising of cochlear implants in South Africa for those children 
whose parents do not have the means to fund the procedure 
privately, strong motivation needs to come from sound re­
search on the efficacy and cost benefits o f cochlear implants 
for children who are profoundly d ea f In order to describe the 
outcomes o f the programme, a programme audit was required. 
Since existing data were incomplete, the problem statement for 
the present study arose directly from this need. While both 
measured and perceived outcomes should be described for a 
complete database of a cochlear implant programme, the pre­
sent study was undertaken with the focus on a family-centred 
approach and for this reason, outcomes as perceived by parents 
were described. In order to conduct a study involving outcomes 
of children with cochlear implants, descriptive data on the child 
as well as his/her context were required.

As demonstrated in the outcomes reports of the Notting­
ham (Outcomes Report, 1990-2000) and Birmingham Paediat­
ric Cochear Implant Programmes (Outcomes Report, 1997), a 
revision and a constant shifting o f the boundaries of selection 
criteria for paediatric cochlear implantation have accompanied 
the developments in technology and the decreasing age o f im­
plantation (Katz et al., 2002). Since the South African context 
is unique, in terms o f population characteristics and the fact 
that no state funding is available for cochlear implants, local 
research within its cochlear implant programmes, it is neces­
sary for programmes to revise their own selection criteria.

The South African Journal o f  Communication Disorders, Vol. 54, 2007

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48 M arguerite Jessop, A lta K ritzinger and N ellie V enter

Since selection criteria ultimately dictate the profile o f a programme’s clients, 
it follows that careful review o f both a programme’s outcomes and selection 
criteria are required to build an accurate picture o f the clients in that pro­
gramme (Chester-Brown, 2005). In addition, knowledge of the variables sur­
rounding a child with a cochlear implant and his/her family, which either con­
tribute to or hinder success, can provide guidelines for the adaptation o f selec­
tion criteria to the population potentially being served by a programme.

As information is the key to making informed decisions, it follows that 
a paediatric cochlear implant programme, which makes life-changing deci­
sions regarding a child’s future, requires detailed information about its clients. 
It followed that a standard system needed to be developed for the PCIP, which 
could address the need for retrospective data collection to complete case histo­
ries o f children implanted for the past ten years, as well as to record prospec­
tive data on current and new clients. It was anticipated that a protocol firmly 
grounded in current research would fulfill the programme’s information needs 
as trends move toward earlier implantation, new surgical techniques, more 
sophisticated technology, changing selection criteria and the pressure for regu­
lar outcome studies (Wright et al., 2002). It was further envisaged that analy­
sis o f the data might reveal trends that would assist the programme’s team in 
planning more efficiently for the changing profile of patients. The aim o f the 
study was therefore to describe the defining characteristics and perceived out­
comes of children and their families enrolled at this programme.

Throughout the literature on paediatric cochlear implantation, it is evi­
dent that the variables affecting the success of a child’s use of this technology 
are numerous and complex, and o f a highly individual nature. As greater vol­
umes o f data become available and early paediatric implantees grow older and 
can be tracked, the profile o f clients’ shifts and variables are better under­
stood. Figure 1 summarises and illustrates some o f the factors explored by the 
study.

V ariables affecting the s u c c e s s  o f  a  c h ild  w ith  a  c o c h le a r implant

1. Age at identification of hearing loss and age at onset of hearing loss
2. Age at implantation and experience with the cochlear implant
3. Cause of hearing loss
4. Biological and medical factors
5. Environmental factors: Socio-economic status, cultural variables and parental edu­

cation
6. Variables related to hearing and auditory system structures
7. Device variables and programme variables
8. Mode of communication

*

O utcom e s o f  child with c o c h le a r im p la n t

1. Language acquisition, speech perception and production
2. Academic success, later employment and independence
3. Educational placement
4. Socialization
5. Family dynamics

*

O u tco m e s o f co c h le a r programme

1. Cost effectiveness and funding
2. Programme evaluation
3. Relevance to South African context
4. Shifting selection criteria
5. Protocol revision
6. Research and future planning through tracking o f patient profiles
/. Comparison and communication with other programmes

C onceptualised from: A rchbold, N ikolopolous, Tait, O ’D onaghue, L utm an & G regory (2000); 
C lark  et al. (1997); M e ren stein  &  G ardner (1998); S um m erfield & M arshall (1999).

Figure 1: Sum m ary o f factors affecting client and program m e outcom es. 

Die Suid-Afrikaanse Tydskrif vir Kommunikasieafwykings, Vol. 54, 2007

M ETHOD

Aims

The main aim o f the study was to formulate a de­
scription o f defining characteristics and outcomes 
pertaining to the children with cochlear implants 
(16 years o f age and younger) in the PCIP and their 
families, as perceived by their parents/caregivers. 
The four sub-aims involved:
® A description of the children’s pre- and perina­

tal, medical, developmental, audiological and 
educational histories;

• The compilation o f a descriptive profile o f the 
families o f children with cochlear implants;

® A description o f the children’s current out­
comes as perceived by their parents in terms of 
audiological, communicative and educational 
functioning with the cochlear implant;

® The identification o f variables affecting the 
success o f the child with a cochlear implant in 
the PCIP.

R esearch Design

The study took the form o f a descriptive survey, as 
it involved acquiring information about the co­
chlear implantees and their families, by asking the 
parents questions and tabulating their answers 
(Leedy & Ormrod, 2005). The study was cross- 
sectional as it provided descriptive data at one 
fixed point in time; however, much o f the informa­
tion was attained retrospectively. Since the study 
involved mainly discrete data, from a fixed set of 
questions, a quantitative approach was followed. 
The study was non-experimental, and no variables 
were manipulated, thus no dependent and inde­
pendent variables were incorporated (Leedy & 
Ormrod, 2005) and no causal relationships were 
explored.

E thical C onsiderations

The research proposal and proposed questionnaire 
were submitted to the Research Proposal and Eth­
ics Committee o f the Faculty o f Humanities, Uni­
versity o f Pretoria, as well as to the Head | o f the 
PCIP. Permission was obtained from the ear, nose 
and throat specialist in charge o f the programme, to 
collect and use the participants’ data for research 
purposes. His conditions as well as those o f the 
ethics committee were taken into account before 
undertaking the study. Participants were required to 
sign and return a consent form accompanying the 
letter o f consent and questionnaire (Strydom,
2002).

/

P articipants

The target group was the children enrolled in the 
PCIP and their families. Non-probability conven­
ience sampling was used in participant selection, 
which precluded generalisation of the results of the 
survey to,the wider population o f children enrolled 
in Cochlear Implant Programmes in South Africa.

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Parental Perceptions o f C haracteristics and O utcom es o f C hildren and Fam ilies in the Pretoria C ochlear Im plant Program m e 49

The selection criteria required that the participants had to be 
parents or caregivers whose children had undergone cochlear 
implantation, were not older than 16 years o f age, and were 
enrolled in the PCIP.

The register containing the names and telephone num­
bers o f the children enrolled in the PCIP was requested, and 
parents were then telephonically contacted to determine will­
ingness to participate in the study. Only 71 o f the 73 parents 
and children enrolled in the programme qualified as partici­
pants in the study, since two families resided in remote geo­
graphic locations and were inaccessible by post. O f the 71 
questionnaires that were sent out, 45 were returned, represent­
ing a 63.4% response rate. According to Edwards et al. (2002), 
a response rate o f over 60% is considered acceptable in a study 
involving postal questionnaires.

Description o f  participants
In general, the majority o f the participants’ children in 

the PCIP were white (91%), Afrikaans speaking (73%) chil­
dren representing both genders (49% female and 51% male), 
living with both parents (76%) and having at least one sibling 
(73%>). The children were more often the youngest children in 
the family (64%), and spent the majority of their time with 
their mothers (65%). Two languages were spoken in the homes 
(with the exception of one home in which three languages were 
spoken). Children were between 2 and 16 years of age, and 
were likely to fall in the categories 2-6 years (pre-school), 7-12 
years (primary school) or 13-16 years (high school). A wide 
distribution o f ages was thus seen in the participants. Regard­
ing the families, the majority of parents were employed, with 
fathers/paternal caregivers employed in all families except one. 
The majority of the families lived in Gauteng (86%), and was 
thus relatively close to the PCIP for access to services. The 
participants o f the questionnaire were the children’s biological 
mothers in all cases except one, a mother o f two children with 
cochlear implants in the PCIP, where the child’s grandmother 
was the participant in consultation with the mother.

Materials
I

The aims o f the study as well as the time and financial con­
straints in the particular setting underscored the need for a data 
collection instrument that could collect large volumes o f quan­
titative data from a large number of participants who were 
spread over a wide geographic area, in the shortest time span 
and the most standardised | way possible (Leedy & Ormrod,
2005). A postal questionnaire was therefore selected as the data 
collection instrument.

The researcher compiled the parent questionnaire, with 
input from other members o f the PCIP team. The questionnaire 
consisted o f discrete items and was divided into five sections 
covering the areas of biographical information, prenatal and 
birth history, medical history, developmental history, family 
history, audiological history and current functioning of the 
child post-implantation. The questionnaire was available in 
both English and Afrikaans, depending on the'language prefer­
ence o f the participant. Since the questionnaire was extensive, 
closed type questions were chosen for ease and speed of an­
swering. Along with the questionnaire, parents received a cov­
ering letter outlining the aims o f the study and the possible 
value thereof, as well as a consent form to sign.

Content and compilation o f  the questionnaire
The questionnaire’s content was compiled according to 

each sub-aim using various sources from various fields. The

questions in the tool were drawn questions from the CHRIB 
case history form (Kritzinger & Louw, 2000) used by the Cen­
tre for Early Intervention in Communication Pathology at the 
University of Pretoria, as well as other questionnaires used at 
the Department o f Communication Pathology, University of 
Pretoria. Furthermore, the questions and justification for ques­
tions were influenced by various sources in the fields o f ECI 
(Rossetti, 2001), neonatal intensive care (Merenstein & Gard­
ner, 1998), paediatric cochlear implants (Clark et al., 1997), 
assessment in childhood communication disorders including 
hearing impairment (Katz et al., 2002), and family assessment 
(Rossetti, 2001). The format of the database being compiled 
by the Tygerberg Cochlear Implant Programme was consulted 
for comparative and evaluative purposes, and the questionnaire 
was adapted to include information in this tool. Only questions 
that could be answered by the parents were asked.

Structure o f the questionnaire
The first section of the questionnaire involved bio­

graphical information pertaining to the child’s family circum­
stance. Questions were chosen to render information about the 
socio-economic status of the family and the level o f education 
o f the people providing stimulation to the child (Dollaghan et 
al., 1999), as well as the family structure and languages spo­
ken. These questions, as well as those in the next four sections, 
were used to fulfill the need for information regarding the fac­
tors influencing the success o f a child with a cochlear implant, 
visually depicted in the upper section in Figure 1.

The next section, covering the history o f  pregnancy and 
birth history, was included since many causes o f hearing im­
pairment have their origin in the prenatal period or with birth 
trauma (Merenstein & Gardner, 1998; Rossetti, 2001). More 
specific, closed-ended questions regarding the child’s condition 
after birth were included in table format to cover all the possi­
ble risk factors for hearing loss and developmental delay in this 
time period (Kritzinger & Louw, 2000).

The medical history o f the child, including hospitalisa­
tions as well as a table listing conditions associated with sen­
sorineural hearing loss, additional disabilities and developmen­
tal delay influencing success with a cochlear implant, com­
prised the next section (Blair, Ramey & Hardin, 1995; Rossetti,
2001).

Thereafter, the developmental history o f the child was 
covered in a table detailing developmental milestones, the de­
velopment of feeding and parental perceptions o f their infants’ 
development prior to the onset of hearing loss. The fam ily his­
tory surrounding the child was documented next, with empha­
sis on the presence of a hereditary component to the child’s 
hearing loss (Angeli et al., 2000; Matsushiro et al., 2002), as 
well as other disabilities, which may affect progress with a 
cochlear implant such as a learning disability or genetic syn­
dromes (Pisoni, 2000).

The child’s audiological history prior to and after co- ~ 
chlear implantation was then probed followed by the last sec­
tion of the questionnaire which used categorical type multiple 
choice questions arranged in tables o f options to describe the 
child’s current educational setting, use o f  his or her cochlear 
implant, level o f  communication, audiological development and 
the level o f  speech intelligibility attained by the child (Ching, 
Psarros, Hill, Dillon & Incerti, 2001). This section related to 
the perceived outcomes o f the child with a cochlear implant 
depicted in Figure 1. The scales used in the questionnaire for 
rating audiological development and the child’s attained level 
o f speech intelligibility were respectively adapted and included 
the Lip Profile (Listening Progress Profile) of Environmental 
Sounds (Archbold, 1993) and the SIR Speech Intelligibility

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50 M arguerite Jessop, A lta K ritzinger and N ellie Venter

Rating Scale (Allen, Nikoloploulos & O ’Donoghue, 1998). Fur­
ther questioning involved the support services and rehabilitative 
therapy available to the child, the child’s use of a telephone and 
the ability to enjoy music.

P rocedures

Reliability and validity
A thorough literature review served as underpinning for 

the questionnaire. The questionnaire was structured in a logical 
way, using simple response choices, easily answerable questions 
and a user-friendly format. A pilot study was conducted in order 
to increase the reliability and validity o f the study.

Pilot study
The aims of the pilot study were refinement and adjust­

ment o f the structure and content o f the questionnaire based on 
pre-testing (Leedy & Ormrod, 2005). The participant was the 
biological mother of one child with a cochlear implant, who was 
slightly above the maximum age defined for participant selec­
tion in this study. The participant o f the pilot study was therefore 
not utilised in the main study. The participant was given the 
choice to participate in the pilot study o f her own free will and 
complied with all participant selection criteria set for the main 
study, besides the age o f the child. Valuable comments were 
made by the participant, which aided refinement o f the question­
naire for the optimal collection o f accurate information for the 
study. Since only one participant was utilised in the pilot study, 
it is recognized as a weakness.

Data collection procedures
Data were collected via a comprehensive questionnaire 

filled in by the parents/caregivers of the children in the PCIP. 
Questionnaires were posted to all families as well as postage- 
paid, return-addressed envelopes and informed consent letters. 
Prior to posting of questionnaires, the families were contacted 
telephonically. This initial phone call served as a means to ex­
plain the nature o f the study and its ethical issues, request per­
mission to use data and determine willingness to participate in 
the study. Follow up phone calls three weeks after posting the 
questionnaires served as reminders to those respondents who 
had not yet returned their questionnaires. No further reminders 
were given, since it may have violated the ethical principle of 
voluntary participation.

Data recording/preparation and analysis procedures
Data were organised using manual coding strategies for 

each answer to questionnaire items, after which it was entered 
into a Microsoft Excel spreadsheet. A computerised system for 
the analysis o f descriptive statistics, namely the SAS® 
(Statistical Analysis System, 1999) was used to provide fre­
quency and percentage information. Both dichotomous and cate­
gorical nominal, as well as ordinal and numerical measurement 
scales were used due to the variety of information being gath­
ered. For the same reason, both measures o f central tendency 
and o f dispersion were used to provide the rich description re­
quired by the data.

RESULTS AND DISCUSSION

The findings o f the study are presented and discussed according 
to the sub-aims. Where appropriate, the sample was divided into 
two groups, namely those participants attending specialised 
schools and those in inclusive educational (IE) settings, and a 
comparison was made between the groups. This was used to aid

Die Suid-Afrikaanse Tydskrif vir Kommunikasieafwykings, Vol. 54, 2007

the search for variables that could contribute to the success of a 
child with a cochlear implant in terms o f the auditory, linguistic 
everyday functioning and academic skills considered by parents 
and professionals when deciding on the choice of educational 
placement. As summarised in Figure 1, a number o f audiologi­
cal, biological and environmental factors affect the outcomes of 
a child with a cochlear implant, and the family unit is the key to 
understanding the development o f the child. For this reason the 
variables relating to the families o f participants were discussed, 
in addition to variables directly related to the children in the 
study. The outcomes o f children, as measured by parental re­
port, were presented and expanded on by comparison to out­
comes o f other programmes, and by linking these outcomes to 
various possible contributing factors in the children’s histories. 
The complete description o f the results o f the study may be 
found in Jessop (2005).

R esults for sub-aim  1: A description of the p re n atal, p erin a­
tal, medical, developm ental, Audiological and educational 
histories o f the p a rtic ip a n ts’ children

Cause o f  hearing impairment
According to Table 1 the largest group, namely those in 

which the cause was unknown to the parents, is o f particular 
interest since this may in part represent the non-syndromic ge­
netic mutations (BJB2 gene) as described in the literature as 
being frequent in the Caucasian population (Matsushiro et al., 
2002). Angeli et al. (2000) report that there are at least 20 dif­
ferent mutations o f this gene, caused by hereditary or disease 
processes; and that the numbers o f these children in cochlear 
implant programmes warrant standard screening for this aetiol­
ogy. The Joint Committee on Infant Hearing (JCIH, 2000) 
stated that, in the near future, advances in knowledge regarding 
recessive genes responsible for non-syndromic hearing impair­
ment could dramatically reduce the number o f children whose 
aetiology o f hearing impairment is unknown.

Table 1. C auses o f hearing loss in children (N=45)

Cause o f  he a rin g  lo s s
Percentage 

o f c h ild re n  (%)

Unknown 17(38%)

Meningitis 4 (9%)

Genetic syndrome associated with hearing impair­
ment 4 (9%)

Prenatal complications 3 (7%)

Birth trauma (foetal distress, asphyxia) 3 (7%)

Hereditary hearing impairment 3 (7%)

Congenital Rubella syndrome 3 (7%)

Maternal cytomegalovirus infection 2 (4%)

Viral infection 1 (2%)

Kidney disorder 1 (2%)
y

Chronic otitis media 1 (2%)

Ototoxic medication / 1 (2%)

Medication ingested by mother whilst pregnant 1 (2%)

Myelin sheath disorder 1 (2%)

TOTAL / 45(100% )

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Parental Perceptions o f  C haracteristics and O utcom es o f  C hildren and Fam ilies in the P retoria C ochlear Im plant Program m e 51

Nature o f  the hearing loss
Only 16% o f children in the current study had an ac­

quired hearing impairment, while the hearing impairment was 
congenital in 84% of cases. Data revealed that 28% o f chil­
dren (including those with congenital and acquired hearing 
impairments) reported a progressive hearing loss, and in 7% 
of cases this was o f a fluctuating nature. The reasons for the 
progression were the presence o f Reno tubular Fanconi syn­
drome, hereditary hearing loss, unknown causes and CMV. 
The majority o f children, with the exception o f those affected 
by meningitis and perinatal factors, had congenital hearing 
impairments, which emphasizes age at implantation as a cru­
cial factor in language development. O f the 7 children (16%) 
in the sample whose hearing loss was acquired, 85% o f par­
ents reported that development prior to the onset o f hearing 
loss was normal, indicating the absence o f early developing 
additional conditions. Children with acquired hearing loss 
have the advantage o f early exposure to sound and possibly 
some linguistic development, and generally develop language 
at a faster rate post-implant than children with congenital 
hearing loss (Katz et al., 2002). These characteristics of the 
children added to the complexity and heterogeneity o f the 
data, and imply an additional dimension to the planning, ex­
pectations and outcomes o f cochlear implant programmes.

Biological and medical variables
The medical histories o f the participants’ children with 

cochlear implants were compared when they were divided 
into two distinct groups, i.e. those in inclusive education (IE), 
and those in specialised education (SE). The only significant 
difference highlighted by this comparison was the greater 
number o f children in the SE group who suffered from ADD/ 
ADHD (reported by parents), namely 5% o f the IE group as 
opposed to 21% o f the SE group. This finding corresponds 
with that o f Pisoni (2000), calling for more emphasis in co­
chlear implant research on issues o f information processing 
such as attention; memory; perception and learning to explain 
the individual differences in outcome after paediatric cochlear 
implantation. The group in IE also seemed to suffer from 
fewier bouts o f general childhood illnesses such as measles, 
mumps and chicken pox that could be interpreted to indicate a 
generally higher resistance to infectious illness and possibly 
better general immunity and' health leading to fewer absences 
from school and missed learning opportunities.

Both groups indicated that middle ear infections as 
well as upper respiratory tract infections were frequent occur­
rences, which would have a temporary negative impact on 
auditory functioning. The JCIH (2000) reported otitis media 
to have an especially negative effect in children with sen­
sorineural hearing loss. None o f the children in IE suffered 
from a chronic illness, as opposed to one participant in the SE 
group. 1

The severity o f the disorders o f vision, not indicated 
by these broad categories, revealed itself to be significant on 
closer inspection. The children in inclusive settings had mild 
visual acuity problems, corrected with lenses,1 while those in 
the second group had more severe visual complications in­
cluding retinitis pigmentosa.

History o f  diagnosis o f  hearing loss and intervention
Hearing loss was generally suspected by mothers/ 

parents by 12 months o f age (62%), although 18% o f parents 
suspected that their infants1 could not hear by 6 months. All 
children’s hearing losses were suspected by 44 months. In 
44% o f cases it was the mother who noticed the child’s lack

of response to sound, in 42% o f cases both parents, in 9% o f cases 
the grandparent, in 3% o f cases it was other people, and in only 
2% o f children was it a teacher or therapist. Only 4% o f children 
were diagnosed by 6 months, a figure which lends support to the 
idea of compulsory hearing screening after birth as implemented 
in the USA (Mayne et al., 2000). In five cases, it was reported by 
parents through the addition o f information not directly asked in 
the questionnaire, that doctors did not react immediately to moth­
ers’ concerns regarding their children’s development, despite find­
ings indicating the high reliability o f parental reports o f concern 
(Rossetti, 2001).

There was a substantial delay between three steps: concern, 
diagnosis and treatment o f hearing loss in the participants’ chil­
dren. The 28% o f children with progressive hearing loss, as well 
as the 7% whose hearing losses fluctuated, may have contributed 
to the delays. A shorter time delay between the three steps in the 
process prior to cochlear implantation would necessarily imply a 
younger age of implantation and should be a goal of healthcare 
professionals (Mayne et al., 2000) and the health system in South 
Africa.

Figure 2 depicts the length o f time that the child wore hear­
ing aids, implying the time between fitting o f hearing aids and 
cochlear implantation.

Ages of subjects

Figure 2: Period for w hich children w ore hearing aids prior to cochlear 
im plantation.

From Figure 2 it can be seen that, while the required period for 
wearing hearing aids prior to establishing candidacy for cochlear 
implantation was 6 months, most participants’ children wore hear­
ing aids for longer than this period prior to cochlear implantation.
It is an important requirement of the PCIP that while the child is 
wearing hearing aids during the trial period, he/she should either 
be included in a specialised classroom or receive intensive, appro­
priate auditory stimulation. The highest percentage o f children 
(27%i) wore hearing aids for between 6 and 12 months, with a 
large percentage (40%) wearing hearing aids for 13-36 months. 
These children received little or no benefit from their hearing aids 
in this time, as this is a candidacy criterion for cochlear implanta­
tion.

Several factors may play a role in affecting the duration o f 
hearing aid use prior to cochlear implantation, such as late referral 
to the cochlear implant programme, difficulty obtaining the neces­
sary funding for the cochlear implantation, delays in the process 
of making the decision to operate as well as in the process o f es­
tablishing candidacy, and the health o f the child in order to make 
the surgery viable. All of these variables may play a greater or

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52 M arguerite Jessop, A lta K ritzinger and N ellie V enter

lesser role in determining the speed with which a child is im­
planted, although in the PCIP delays are not generated by an 
annual quota o f cochlear implants or a lengthy waiting list as it 
is largely still an elective procedure and thus part o f the private 
health care sector.

Funding can pose a significant barrier to early implanta­
tion for many South African children. O f the 45 children, only 
one received a small amount of state funding for the procedure. 
In 84% o f cases the family’s medical aid scheme paid for the 
implantation, and some cases were funded privately by the 
family and through donations. This implies a waiting period 
before cochlear implantation as many families raise the neces­
sary funds themselves.

A ge at cochlear implantation
The distribution o f ages at which children in the study 

received their cochlear implants was between 12 months and 10 
years. The largest groups, in descending order, were those im­
planted at age 2-3, age 1-2, and age 3-4 years respectively. A 
world-wide trend toward earlier cochlear implantation exists 
(Archbold et al., 2000). Results therefore indicated that the 
PCIP data were in accordance with this trend, with more chil­
dren being implanted prior to age 5 years than later.

Audiological variables: Side o f  implant and reasons
In most children (60%) the right side was chosen for 

cochlear implantation, while 36% had their left ear implanted 
and 4% received bilateral implants. When the hearing loss was 
similar in both ears, the dexterity o f the child was taken into 
account by the surgeon. As most people are right handed, this 
could explain the high percentage o f right side implants.

Reasons f o r  choice o f  side f o r  cochlear implantation
The largest group o f participants (38%) chose the 

child’s poorer ear (with less residual hearing), with handedness, 
most normally formed cochlea and hearing nerve, ear which 
had the most stimulation and thus had the most residual hear­
ing, frequent middle ear infections on one side, facial nerve 
implications or the child’s own choice as the other reasons for 
choice o f cochlear implantation. Side of implant may be af­
fected by many factors where there is not a clear structural or 
surgical choice of side. As selection criteria shift to include 
children with greater levels of residual hearing, this decision 
becomes more complex as the possibility o f ‘losing’ the resid­
ual hearing in the implanted ear due to the effects o f surgery, 
including cochlear trauma and connective tissue growth, be­
come relevant (Kiefer et al., 1998). In general, the side with the 
least residual hearing is then implanted, affording two advan­
tages to the child and the family, namely the psychological 
sense of security that his/her hearing sense will not be obliter­
ated completely, as well as the possibility o f making use o f the 
binaural/bimodal advantage with a well fitted hearing aid on 
the non-implanted ear. Philosophies and viewpoints regarding 
the choice of ear to be implanted have changed in the PCIP as a 
function o f time, new research findings, shifting selection crite­
ria .and changing surgical techniques (Katz et al., 2002). As a 
rule, the largest number o f participants in the current study had 
chosen their children’s ‘weaker’ ear for implantation. This 
raises the next issue, namely the use o f a hearing aid on the non 
-implanted side.

H earing aid use on non-implanted ear
Only 44% of children wore a hearing aid on the contra 

lateral ear. Reasons given for not wearing a hearing aid in­

cluded the fact that the ear had too little residual hearing to 
benefit, not knowing that it was advisable, and the child’s re­
fusal to wear the hearing aid. The reasons for wearing the 
hearing aid included better sound, better localization, stimula­
tion o f the acoustic nerve, the school’s policy, more balanced 
hearing, making use o f residual hearing, and recommendation 
by the audiologist. In Pretoria, the majority o f specialised 
schools advocate the wearing o f a hearing aid on the non- 
implanted side, at least during school hours. This, together 
with the audiologists o f the PCIP’s own frequent recommenda­
tions to encourage this practice, may have accounted for a 
large percentage of the participants’ motivation to do so, al­
though this is a fairly recent development based on more re­
cent research and the advent o f bilateral cochlear implants as a 
viable option. Studies demonstrating the advantages o f bilat­
eral implants are growing in number (Ertmer, 2002). In the 
PCIP only two children had received bilateral cochlear im­
plants, both in successive operations as opposed to simultane­
ous operations. According to the parents, o f the two, one wears 
both his devices well and the other refuses to wear the second 
device.

R esults for sub-aim  2: C om pilation of a descriptive profile 
of the families of children with cochlear im plants in the 
P C IP

In this section a profile was created o f the families o f children 
with cochlear implants in the study was created, including in­
formation on the prevalence of hearing loss or additional disor­
ders o f speech, language or learning in families and educa­
tional level and employment status o f parents. In eight chil­
dren’s families there existed a history o f childhood hearing 
loss. Participants were further asked to report on a family his­
tory o f speech/language or academic difficulties not related to 
hearing loss. In the SE group, 17% o f families had a history of 
learning/academic and serious speech/language difficulties in 
childhood. This was higher than the 5% reported in the IE 
group, and may have been a factor contributing to the need for 
SE. The presence o f these difficulties in the parent might have 
affected their level o f stimulation o f the child (Dollaghan et 
al., 1999), while the presence o f these hereditary traits in the 
children themselves could have hampered their success in ac­
quiring language and academic progress. j

Environmental variables related to the family unit were 
reported as parental education and employment status in order 
to give an indication o f socio-economic status and the amount 
o f time spent at home with the children by the maternal and 
paternal parents/caregivers respectively. It followed that the 
parent spending the most time with the children would !play a 
greater role in academic development, and this parent’s own 
educational status might then be o f greater relevance. The re­
sults showed that mothers/maternal caregivers o f the children 
in IE had a higher level o f educational status in general. The 
most pronounced differences were seen in the highest level, 
namely university degree that included 26% o f mothers in the 
IE group and only 8% o f mothers in the SE group. The lowest 
level measured, namely standard 8, included only-5% of moth­
ers of children in inclusive settings and 17% of mothers in the 
SE group. A similar trend was seen with paternal parents/ 
caregivers, where 37% o f fathers o f children in IE had a uni­
versity degree as opposed to 23% o f fathers o f children in spe­
cialised settings. Thus it would appear from these data that the 
level o f maternal and paternal educational status might play a 
role in the academic success o f a child with a cochlear implant.

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Parental P erceptions o f  C haracteristics and O utcom es o f  C hildren and Fam ilies in the P retoria C ochlear Im plant Program m e 53

Results for sub-aim  3: D escription of ch ild ren ’s c u rre n t p e r­
ceived outcomes in term s of auditory, com m unicative an d  edu­
cational functioning

Auditory outcomes: Use o f  the device
All participants reported that the cochlear implant device 

was worn at all times (all waking hours), at home and at school.

Auditory performance
Speech was most easily detected and identified by the par­

ticipants, which was probably due to the cochlear implant’s bias 
toward providing access to sounds in the speech frequency 
(Gibson, Rennie & Psarros, 2000). While over 93% o f participants 
could detect music, their own names and family names, soft 
sounds and whispered speech, fewer participants could also dis­
criminate these sounds. Access to sound, however, was greatly 
improved by cochlear implantation.

Linguistic outcomes: M ode o f  communication
From the breakdown in Table 2 it was evident that the ma­

jority o f children was using the auditory-oral mode of communica­
tion as opposed to signing, and was in various stages o f develop­
ment o f spoken language. The largest number of children was cate­
gorized in the ‘functional language’ column, which in this context 
meant that they were using connected speech in complete or in­
complete sentences more often than 3-word utterances or shorter 
units o f language.

More children in this study were using single words than 
more complex word combinations, however, an even larger group 
was using mature sentence forms. This indicated that in the present 
cross sectional study, more children were in either the earlier, or 
the more advanced stages o f language acquisition than in the mid­
dle stages.

This result did not necessarily imply that these children 
were o f a certain age group, since the linguistic outcome o f paedi­
atric cochlear implantation is highly variable.

The population is a “notoriously heterogeneous 
population with great variation in their auditory, cognitive and 
linguistic maturity that may be impossible to quantify before inter­
vention (O ’Donague et al., 2.000, p.467), however, duration o f de­
vice use could play a role. J
Table 2: M ode o f  com m unication and level o f  language developm ent for 
all children (N =45) j

A possible cause of the variation in speed and extent of 
linguistic outcome was the central auditory processing mecha­
nisms that are crucial to the perception of speech through a 
cochlear implant, and for which there are as yet no reliable 
measures (O ’Donague et al., 2000). From this discussion it is 
evident that cochlear implantation resulted in access to a wide 
range o f sounds, including speech and soft environmental 
sounds for most o f the children in the PCIP, although children 
in the IE group showed slightly better outcomes. All the chil­
dren wore their cochlear implants, and the majority was ac­
quiring, or had acquired, speech through listening.

Educational placement outcomes: Comparison o f  variables 
and outcomes fo r  children in IE and those in SE settings.

For most cochlear implant programmes the goal o f 
early implantation is to allow the child to be placed into an IE 
setting and to function among his/her normal hearing peers. 
The Nottingham Paediatric Cochlear Implant Programme 
(1997) reported placing 53% of their preschool age children in 
inclusive settings at two years post-implant, while the Bir­
mingham Paediatric Cochlear Implant Programme (2000) re­
ported placing 17% of their total population, of all ages, in 
regular classrooms.

Tables 3 and 4 endeavour to profile various characteris­
tics and outcomes as they pertain to children in IE, and those 
in SE settings. Two children were at home with their mothers 
and were not in any educational setting; therefore the total for 
the two groups was 43 children. Only two children attended 
schools for the Deaf where sign language was a medium o f 
tuition.

® Age at diagnosis o f  hearing loss
The children in the preschool IE group received a diagnosis 
slightly earlier than those in the SE group, with an average 
difference o f 6 months, as illustrated by Tables 3 and 4. The 
same trend was seen in the primary school (average difference 
17 months) as well as the high school (average difference 9 
months) groups. Since diagnosis is the first step toward ampli­
fication and cochlear implantation, it seems that the children in 
the SE group were, in general, at a slight time disadvantage 
from the start (Yoshinaga-Itano, Sedey, Coulter & Mehl,
1998).

•  Age at fitting o f  hearing aids
In general, children in the three groups in IE were fitted with 
hearing aids earlier and younger than those in SE settings. The 
IE group thus had access to sound, prior to cochlear implanta­
tion, at a younger age than the SE group, allowing important 
neurological development to take place in the auditory cortex 
(Katz et al., 2002).

* Age at cochlear implantation
The largest group o f IE preschoolers was implanted between 
the ages o f 1 and 2, while the majority o f SE preschool chil­
dren received their cochlear implants between the ages o f 2 
and 3 years o f age. This represented a significant difference in 
the children’s groups in terms o f neural plasticity and capacity 
to acquire age-appropriate language, although it is worth not­
ing that the majority of children in this age range were im­
planted at or before 3 years of age. As seen in Tables 3 and 4, 
no children were implanted prior to age 3 years in the primary 
school SE group, and this group received their cochlear im­
plants on average 14 months later than their peers in the IE 
group. Since age has been identified through-out the literature 
as the major determining factor in successful paediatric co-

Mode/level of 
communication development

P e r*» » la §  e o f 
children using

often

Sounds 36%

Natural gestures 38%

Word approximations 31%

AVERAGE FOR PREVERBAL LEVEL 35%

Single words 36%

AVERAGE FOR TRANSITIONAL LEVEL 36%

Two word combinations 1 29%

Three word combinations 29%

AVERAGE FOR LEVEL ACQUIRING FUNCTIONAL 
LANGUAGE

29%

Incomplete sentences 36%

Complete sentences 47%

AVERAGE FOR FUNCTIONAL LANGUAGE LEVEL 42%

SIGN LANGUAGE 11%

SPEECH PLUS SIGN: TOTAL COMMUNICATION 22%

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54 M arguerite Jessop, A lta K ritzinger and N ellie Venter

T a b le  3: D escription o f  characteristics o f  children in inclusive educational settings (N =19)

Ddivision o f  group into ag e  categories

Characteristics Preschool N=6 Primary school N=10 High school N=3

Age at diagnosis of HL* 6-16M 6-18M 10-33M

Age at fitting of hearing aids 7-18M 9-19M 10-34M

Age at cochlear implantation
19-24M: N=4 
32M: N=1 
42M: N=1

22-75M 52-140M

Cause of HL

• Unknown:3
• Hereditary: 1
• Syndrome (Waardenburg):1 
.  CMV:1

• Unknown:3
• Hereditary:2
• Meningitis:1
• CMV:1
• Complications in pregnancy: 1
• Unspecified syndrome:1
• Myelin sheath disorder: 1

• Unknown:1
• Maternal medication:1
• Meningitis.!

Congenital HL All N=7 N=2

Progressive HL None N=2 N=1

Acquired HL None N=1 None

Married parents All N=6 N=2

Older siblings All N=5 N=2

No. of languages spoken in home 1-2 1-2 2

SIR** category of speech intelligibility 2-5
5: N=7 
4: N=3

5

No. currently enrolled in speech therapy
All
(Previously & currently)

N=5
(all previously)

N=1
(all previously)

No. currently enrolled in occupational ther­
apy

N=1
(2 previously)

N=1
(5 previously)

N=0
(2 previously)

Able to use telephone N=2 N=8 N=3

Use of FM system None N=6 N=1

Prenatal complications None N=3 None

Perinatal complications None N=6 N=1

Feeding problems N=2 N=2 N=0

Developmental milestones excluding 
speech

Delayed: N=2 Delayed: N=1 Delayed: N=1

Hospitalizations and reasons

• Insertion of grommets for 
otitis media

• Respiratory tract infections
• Digestive tract illness

• Insertion o f grommets for otitis 
media

• Respiratory tract infections
• Digestive tract illness
• Meningitis
• Trauma
• Blood transfusions

• Insertion o f grommets for 
otitis media

• Meningitis 1

* HL: H earing loss; ** SIR: Speech In telligibility R ating Scale

chlear implantation (Mayne et al., 2000), these results point to 
the urgency for more efficient systems o f diagnosis, referral to 
cochlear implant teams, establishing o f candidacy and funding 
for cochlear implantation in the PCIP.

• Cause o f  hearing loss
The etiologies o f hearing loss for which the numbers were com­
parable between the two groups were genetic syndromes and 
unknown causes. More SE than IE children lost their hearing 
due to congenital rubella syndrome and birth trauma, while 
more children in IE had hereditary hearing loss. Children who 
experienced birth trauma might be expected to have suffered 
further developmental consequences o f neonatal asphyxia 
(Merenstein & Gardner, 1998), including increased risk for de­
velopmental delays in all areas including sensory, motor, cogni­
tive and speech/language development (Rossetti, 2001). Heredi­
tary, non-syndromic hearing loss is more likely to go unaccom­
panied by additional disabilities (Angeli et al., 2000; Matsushiro

et al., 2002), implying that this specific cause o f hearing loss 
may be related to higher levels o f success with a cochlear im­
plant. i

• Nature o f  hearing loss: progressive and congenital hearing 
loss

In Tables 3 and 4 it can be seen that slightly more children in IE 
had exposure to sound prior to the onset o f their hearing losses, 
placing them at an advantage in terms o f neurological matura­
tion o f the auditory cortex, even if exposure to sound was brief 
(Ponton, Don, Eggermont, Waring & Masuda, 1996).

• Marital status o f  parents
Most o f the parents o f children with cochlear implants in both 
groups were married. Most children thus benefited from two 
parents, nuclear family contexts, found to be positively corre­
lated with significantly better academic and language outcomes 
(Calderon & Low, 1998).

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Parental Perceptions o f  C haracteristics and O utcom es o f  C hildren and Fam ilies in the P retoria C ochlear Im plant Program m e 55

Table 4. D escription o f  children in specialised educational settings (N=24)

Division o f group into age categories

Characteristics Preschool N=11 Primary school N=9 High school N=4

Age at diagnosis of HL* 7-26M 10-48M 23-36M

Age at fitting of hearing aids 11-36M 11-48M 26-36M

Age at cochlear implantation
<2yrs:N=1
2-3:N=7
3-5:N=3

40-84M
<3yrs:N=0
3-5:N=2

96-120M 
<3yrs: N=0 
3-5: N=0

Cause of HL

• Birth trauma:1
• Unknown:6
• Hereditary: 1
• Rubella:1
• Syndrome (Waardenburg): 1
• Complications in pregnancy: 1

• Birth trauma:1
• Unknown:2
• Hereditary: 1
• Rubella:2
• Meningitis:1
•  Otitis media: 1
• Maternal CMV: 1

• Birth trauma:1
• Unknown:1
• Syndrome: 1 (with kidney 

disease)
• Maternal medication: 1

Congenital HL N=10 N=8 N=3

Progressive HL N=3 N=1 N=2

Married parents
N=9
divorced =1 
live toqether = 1

N=8
remarried =1

N=2
widowed=1
divorced=1

Older siblings
N=8
2=middle
7=youngest

N=5
N=2
(1=only child, 1=youngest of 3)

No. of languages spoken in home
1-2 language: N=10 
3 languages: N=1

1-2 languages 1-2 languages

SIR category of speech intelligibility

1:N=3
2:N=3
3:N=1
4:N=3
5:N=1

1:N=1
2:N=0
3:N=3
4:N=2
5:N=3

1:N=0
2:N=0
3:N=1
4:N=2
5:N=1

No. currently in speech therapy
N=6
(9 previously enrolled)

N=5
(6 previously)

N=3
(4 previously)

No. currently in occupational therapy
N=0
(4 previously)

N=2
(6 previously)

N=0
(1 previously)

Able to use telephone N=5 N=4 N=3

Use of FM system 5 N=2 N=0

Prenatal complications N=2 N=3 N= 0

/
Perinatal complications N=11 N=9 N= 2

Feeding problems N=5 N=0 N=0

Developmental milestones excluding 
speech |

Delayed: N=6 Delayed: N=2 Delayed: N=1

ii /

Hospitalizations and reasons

• Insertion o f grommets
• Fever
• Failure to thrive
• Reaction to vaccination
• Poisoning
• Respiratory tract infections
• Digestive tract illness
• Meningitis
• Trauma
• Blood transfusions

• Meningitis
• Insertion o f grommets for otitis 

media
• Respiratory tract infections

• Respiratory tract infections
• Skeletal fractures

*HL: H earing loss

• Presence o f  older siblings
This variable was explored due to the possible advantages to 
language acquisition o f having an older sibling as a peer lan­
guage model. Results indicated that slightly more o f the chil­
dren in the IE group had the advantage o f an older sibling in 
the home. In general, most children in this study were the 
youngest and had older siblings (62-68%).

• Number o f  languages spoken in the home 
The majority o f families in both groups spoke one or two lan­
guages in the home. The possible effects o f language confusion 
on the child were not significant in either group, and closer in­
spection revealed that in both groups, bilingual families at­
tempted to speak only one language in the home to accommodate 
the participant.

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56 M arguerite Jessop, A lta K ritzinger and N ellie V enter

• Speech intelligibility according to the Speech Intelligibil­
ity Rating Scale (SIR)

The rating scale used, namely Speech Intelligibility Rating 
Scale (Allen et al., 1998) (SIR), grades speech intelligibility 
in 5 levels as follows: 1 indicates unintelligible speech; 2 
indicates that intelligible speech is developing in single 
words in a known context; 3 means speech is intelligible to a 
listener who concentrates and lip-reads; 4 indicates speech 
which is intelligible to a listener without much prior experi­
ence o f deaf speakers; and 5 means speech is intelligible to 
all listeners. In general, the SIR level reported was higher 
for preschool children in IE than in SE, and no children in 
IE had a rating indicating unintelligible speech. For the pri­
mary school children, the difference became more pro­
nounced with children in IE reported as having normal or 
near-normal speech, as opposed to the SE children whose 
ratings varied widely and tended to be lower. IE children in 
high school were all rated at the maximum score as being 
normally intelligible, whereas their peers in SE were gener­
ally rated as being more difficult to understand. This vari­
able showed a marked difference between the two groups, 
indicating that speech intelligibility is likely to be affected 
by, and affects, decisions regarding educational placement.

• Speech-language and occupational therapy: children 
currently and previously enrolled in therapy

O f the preschoolers depicted in Tables 3 and 4, a larger per­
centage in IE were enrolled in speech-language therapy than 
those in SE. This could be due to the greater support given 
in class by specialised settings, or due to the increased pres­
sure on children in IE to keep up with their normal hearing 
peers, requiring support services outside the school. How­
ever, as the ages o f children increased, more children in SE 
were still making use o f the services o f a speech-language 
therapist in primary and high school than those in IE. This 
appeared to indicate that IE required greater levels o f sup­
port services initially, but that this tends to decrease as the 
child gets older and becomes fully integrated into the sys­
tem.

• Telephone use
As shown in Tables 3 and 4, in both the primary and high 
school groups, the vast majority o f study children in IE 
could use a telephone to communicate successfully, while 
the percentages were smaller for the SE group. This may 
give an indication of hearing with the cochlear implant, cen­
tral auditory processing o f a less than ideal signal such as 
that heard over a telephone line as well as reliance on speech 
reading.

• Use o f  an F M  system at school
O f the preschool age children, almost half (45%) o f those in 
SE used an FM system at school, while none o f the IE group 
did. However, at primary school age only 22% o f SE chil­
dren were using an FM system as opposed to 60% o f chil­
dren in IE, presumably as the listening demands in an inclu­
sive classroom increase in the formal education system 
whereas more adaptations are made for listening in SE 
classes. The conclusion can be drawn that FM systems are 
still important after cochlear implantation in order to opti­
mize the listening environment. This is true especially in 
inclusive primary school classrooms where no special 
acoustic adaptations are made, class sizes may be large, and 
children’s auditory processing skills are still developing in 
order to cope with listening in background noise.

• Biological contributing factors: Prenatal and perinatal compli­
cations or conditions

In general, more children in the SE group presented with prenatal 
or perinatal complications or conditions than children in the IE 
group: 39% o f the SE group as opposed to 17% o f the IE group (see 
Tables 3 and 4). Due to their far-reaching implications (Rossetti, 
2001), these variables may have played a role in placing the chil­
dren in the SE group at a developmental disadvantage, which in 
turn may have resulted in their educational placement in special 
school settings.

• Feeding difficulties in neonatal and early childhood stage 
According to Tables 3 and 4, the group which reported the largest 
incidence o f feeding difficulties was the preschool SE group, al­
though a small number o f children in the IE preschool and primary 
school group also reported feeding difficulties. Early feeding diffi­
culties are a well-known risk factor for communication delay in 
children (Rossetti, 2001).

• Developmental milestones (excluding speech and language 
milestones)

Significantly more o f the preschoolers and primary school children 
in the SE group were reported to have presented with delays in 
achieving developmental milestones than their peers in IE. This 
may indicate the presence o f additional delays in development o f 
the children who were subsequently placed in SE settings, in areas 
not directly related to the hearing loss such as motor, sensory and 
self-help skill development.

• Hospitalisations
Reasons for hospitalisation were similar for the SE and IE groups, 
including both the causes o f acquired hearing loss (meningitis) and 
most frequently illnesses affecting the respiratory and digestive 
systems.

Results for sub-aim 4: Identification of variables affecting the 
success o f children with cochlear implants in the PCIP

This sub-aim was fulfilled using the results and discussions arising 
from the division o f the participant group into two groups based on 
educational outcomes. The purpose to provide a set o f variables 
that could be linked to outcome measures of fully IE placement, 
which implies positive speech, language and auditory outcomes as 
demonstrated in the preceding results and discussions. In general it 
can be seen that, in the children o f this study, the variables [listed in 
Table 5 were linked to positive outcomes. • J

Table 5: E leven m ost im portant variables associated w ith successful out­
com es o f  children w ith cochlear im plants in the PCIP ,

1. Early age at diagnosis, intervention with hearing aids, and cochlear 
implantation

2. Absence of prenatal and perinatal complications

3. Higher level of maternal education

4. Developmental milestones achieved at normal ages

5. Absence of early feeding difficulties ^

6. Use of an FM system in early schooling (primary school level)

7. Intelligible speech

8. Access to ECI

9. Presence of an older sibling - X

10. Absence of birth trauma and congenital rubella syndrome as causes of 
hearing loss. (More successful outcomes when cause of hearing loss 
was hereditary and non-syndromic, or unknown)

11. Later onset of hearing loss: acquired (few children)

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Parental Perceptions o f C haracteristics and O utcom es o f C hildren and Fam ilies in the P retoria C ochlear Im plant Program m e 57

Variables associated with success with a cochlear 
implant fo r  children in the PCIP: (as measured by 
placem ent in IE  settings)

In order to provide clarity and structure, these 
variables in Table 5 can be used by the PCIPs team 
o f professionals to guide programme planning in 
terms o f selection criteria, intervention decisions and 
counseling regarding realistic expectations in parents 
o f children with cochlear implants. Each child and 
family’s individual profile o f risks, strengths and 
needs can be ascertained, and planning can be opti­
mised. Early diagnosis, early intervention with hear­
ing aids and early cochlear implantation, also con­
firmed by other studies (Yoshinaga-Itano, 2000; Yo- 
shinaga-Itano et al., 1998) stand out as the most im­
portant variables associated with successful outcomes 
o f children with cochlear implants in the PCIP.

CONCLUSION

The study produced valuable data on the chil­
dren in the PCIP in 2004, yet the results represent 
only 63.4% o f those children and their families. Es­
tablishing a computer database to store and retrieve 
client data continuously for regular programme audits 
and research is recommended to monitor outcomes 
and to ensure best practice in the programme. A data­
base provides the opportunity to store data on direct 
clinical observations and measurements, overcoming 
the limitations o f research on parental perceptions o f 
outcomes -  a clear limitation o f the present study.

The children o f this study, although differing 
widely in age, educational level and setting, and cir­
cumstances leading to cochlear implantation, were 
not representative o f the South African population or 
the population of South African children with severe 
to profound bilateral hearing loss as a whole. As co­
chlear implantation is still an expensive, elective pro­
cedure falling almost exclusively in the realm o f the 
private health care sector in this country, this profile 
o f "clients is unlikely to change until state funding for 
cochlear implantation is secured. This can only be 
achieved by the concerted jefforts of clinicians and 
researchers to generate similar studies on which to 
base strong motivation for cochlear implantation, 
universal infant hearing screening and follow-up pro­
grammes for all South African hospitals and clinics 
in addition to the use of high risk registers, and ECI 
(Swanepoel, 2004). The study has provided descrip­
tions and guidelines for translating theory into action 
to prioritise early intervention for children with hear­
ing loss. Such an effort requires an “unprecedented 
level o f commitment and cooperation by all those 
involved: state and community agencies, professional 
groups and practitioners, parents, advocacy organiza­
tions, researchers, and institutions o f higher educa­
tion” (Guralnick, 2001: p. 18). With the challenge of 
early identification of hearing loss, access to early 
intervention services for all, and state funding ena­
bling earlier implantation and the reaching o f a more 
representative section o f the population realised, the 
outcomes o f cochlear implantation in South Africa 
may exceed the most optimistic expectations.

REFERENCES

A llen, M .C ., N iko lo p o u lo s, T. N ., & O ’D onoghue, G. M. (1998). Speech intelligibility in 
children follow ing co ch lear im plantation (SIR ). The A m erican Jo u rn a l o f  O tology, 19 
(6), 742-746.

A ngeli, S., U trera, R., D ib, S., C hiossone, E., N aranjo, C., H enriquez O., & Porta, M. 
(2000). G ene m utations in childhood deafness. A c ta  O tolaryngology, 120, 133-136.

A rchbold, S. (1993). L ip  P ro file (Listening P ro g ress P rofile). N ottingham  P aediatric C o­
c hlear Im plant Program m e, N ottingham .

A rchbold, S. M ., N ikolopoulos, T. P., Tait, M ., O ’D onaghue, G.M ., Lutm an, M .E ., & G reg­
ory, S. (2000). A pproach to com m unication, speech p erception and intelligibility after 
paediatric coch lear im plantation. B ritish J o u rn a l o f  Audiology, 34, 257-264.

B irm ingham  P aediatric C o c h le ar Im plant P rogram m e. (2001). 1990-2000, U npublished 
O utcom es R eport, N H S  T rust, B irm ingham  C h ild ren ’s H ospital, UK.

B lair, C., R am ey, C. T., & H ardin, J. M. (1995). E arly intervention for low birthw eight, 
prem ature infants: P articipation and intellectual developm ent. A m erican Jo u rn a l on 
M en ta l R etardation, 99(5), 542-554.

C alderon, R., & L ow , S. (1998). Early social-em otional, language, and academ ic d evelop­
m ent in children w ith hearing loss: Fam ilies w ith and w ithout fathers. A m erican A nnals 
o f  th e D eaf, 1 4 3 ,2 2 5 -2 3 4 .

C hester-B row n, R. (2005). A udiological criteria in children and adults. P resentation at the 
C ochlear Im plant C onference: Issues for n ew  populations. 16-19 M arch 2005. Spier 
Estate, Stellenbosch, South A frica.

C hing, T. Y. C ., Psarros, C ., Hill, M ., D illon, H., &  Incerti, P. (2001). Should children w ho 
use coch lear im plants w ear hearing aids in the opposite ear? E a r & Hearing, 22(5), 365- 
380.

C hing, T. Y. C., Psarros, C ., H ill, M ., D illon, H., Incerti, P., &  Hill, M . (2002). M anagem ent 
o f  children using cochlear im plants and hearing aids. The Volta R eview , 103(1), 39-57.

Clark, G. M ., C ow an, R. S. C ., & D ow ell, R. C. (1997). C ochlear im plantation f o r  infants 
a n d  children: Advances. San D iego: S ingular P ublishing Group.

D ollaghan, C.A ., C am pbell, T. F., P aradise, J. L., Feldm an, H. M ., Janosky, J. E., Pitcairn, 
D . N ., &  K urs-L asky, M . (1999). M aternal education and m easures o f  early speech and 
language. J o u rn a l o f  Speech, L a n g u a g e a n d  H ea rin g  Research, 42, 1432-1443.

Edw ards, P., Roberts, I., C larke, M ., D iG uiseppi, C., Pratap, S., W entz, R., & K w an, I. 
(2002). Increasing resp o n se rates to postal questionnaires: System atic review . B ritish 
M ed ica l Jo u rn a l, 324, 1183-1185.

Ertm er, D. J. (2002). T echnological innovations and intervention p ractices for children with 
cochlear im plants. Language, Speech a n d  H e a rin g  Services in Schools, 3 3 ,2 1 8 -2 2 1 .

G ibson, W ., Rennie, M ., & Psarros, C. (2000). O utcom e after cochlear im plantation and 
auditory verbal training in term s o f  speech perception, speech production and language. 
A d v a n c e d  O torhinolaryngology, 57, 251-253.

G uralnick, M . (2001). D evelopm ental system s m odel for early  intervention. In fa n ts a n d  
Young Children, 1 4 (2 ), 1-18.

Jessop, M . A. (2005). C lients o f  th e P retoria C ochlear Im plant P rogram m e: C haracteristics 
and p erceived outcom es o f  children and th eir fam ilies. U npublished M asters D isserta­
tion, D epartm ent o f  C om m unication Pathology, U niversity o f  Pretoria.

Joint C om m ittee on Infant H earing. (2000). Y ear 2000 P osition Statem ent: P rinciples and 
guidelines for early detection and intervention program s. A m erican Jo u rn a l o f  A u d io l­
ogy, 9, 9-29.

K atz, J., B urkard, R. F., & M edw etsky, L. (2002). H a n d b o o k  o f  clin ica l audiology. (5 th ed.). 
P hiladelphia: L ip p in co tt W illiam s and W ilkins.

K iefer, J., von Ilberg, C., R eim er, B., K necht, R., G all, V ., D iller, G., Sturzbecher, E., 
P fennigdorff, T., &  Spelsberg, A. (1998). R esults o f  cochlear im plantation in patients 
w ith severe to profound hearing loss -  Im plications for patient selection w ith parents o f  
d e a f  and hearing children. Audiology, 37, 382-395.

K ritzinger, A .M ., & L ouw , B. (2000). A com prehensive assessm ent protocol for infants and 
toddlers at risk for com m unication disorders. Part 1: C ase H istory. Clinica: A p p lic a ­
tions in C linical P ra ctice o f  C om m unication P athology. M onograph 5. D epartm ent o f  
C om m unication P athology, U niversity o f  Pretoria.

The South African Journal o f  Communication Disorders, Vol. 54, 2007

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2.

)



58 M arguerite Jessop, A lta K ritzinger and N ellie V enter

Leedy, P. D., & O rm rod, J. E. (2005). P ra ctica l research: P la n n in g  a n d  
design. (Xth ed.)- N ew  Jersey: Pearson E ducational International.

M atsushiro, N ., D oi, K ., Fuse, Y ., N agai, K., Y am am oto, K., Iw aki, T., Ka- 
w ashim a, T., Saw ada, A ., H ibino, H., & K ubo, T. (2002). Successful 
cochlear im plantation in prelingual profound deafness resulting from  the 
com m on 233delC  m utation o f  the G JB2 gene in th e Japanese. The L a ­
ryngoscope, 1 1 2 ,2 5 5 -2 6 1 .

M ayne, A. M ., Y oshinaga-Itano, C., & Sedey, A. L. (2000). R eceptive vo­
cabulary d evelopm ent o f  infants and toddlers w ho are d e a f o r hard o f  
hearing. The Volta Review , 100(5), 29-52.

M erenstein, G .B ., & G ardner, S.L. (1998). H a n d b o o k o f  neo n a ta l intensive 
care. (4 1*1 ed.). St L ouis: M osby.

M oog, J. S. (2002). C hanging expectations for children w ith cochlear im ­
plants. In tern a tio n a l Jo u rn a l o f  P aediatric O torhinolaryngology, 111, 
138-142.

N eum an, W . L. (2000). S o cia l research methods, qualitative a n d  quantitative 
approaches. (4lh ed.). Boston: A llyn & Bacon.

N ottingham  Paediatric C o c h le ar Im plant Program m e. (1997). U npublished 
Report: O utcom es for paediatric cochlear im plantation. R opew alk 
H ouse, N ottingham , UK.

Pisoni, D. B. (2000). C ognitive factors and cochlear im plants: Som e thoughts 
on perception, learning and m em ory in speech perception. E a r & H e a r­
ing, 21(1), 70-78.

P onton, C. W ., D on, M ., E ggerm ont, J. J., W aring, M. D., & M asuda, A. (1996). 
M aturation o f  hum an cortical auditory function: D ifferences b etw een  norm al- 
hearin g  children and children w ith coch lear im plants. E a r & H earing, 17(5), 
430-437.

R ossetti, L. M. (2001). C om m unication intervention. B irth  to three. (2nd ed.). A ustra­
lia: S ingular T hom son Learning.

SA S®  V ersion 8. (1999). Cary, N o rth  C arolina: SAS Institute Inc.

Strydom , H. (2002). E thical aspects o f  resea rch  in the social sciences and hum an 
service professions. In A. S. D e V o s (ed.), R esea rch  a t g ra ss roots. F o r the 
so c ia l sciences a n d  hum an se rv ic e  professions. (2nd ed.). Pretoria: J.L. van 
S chaik Publishers.

Sum m erfield, A. Q ., & M arshall, D. H. (1999). P aediatric coch lear im plantation and 
health-technology assessm ent. In tern a tio n a l Jo u rn a l o f  P a ed ia tric O torhi­
nolaryngology, 47, 141-151.

S w anepoel, D .C.D . (2004). Infant h earin g  screening at m aternal and child health 
clinics in a developing South A frica n  com m unity. U npublished D P hil disserta­
tion. D epartm ent o f  C om m unication Pathology, U niversity o f  Pretoria.

W right, M ., P urcell, A ., & R eed, V. A. (2002). C ochlear im plants and infants: ex­
p ectatio n s and outcom es. A n n a ls o f  Otology, R h in o lo g y & Laryngology, 189, 
131-137.

Y oshinaga-Itano, C., Sedey, A. L., C oulter, D. K., & M ehl, A. L. (1998). T he lan­
g u age o f  early- and later identified children w ith hearing loss. Pediatrics, 102, 
1161-1171.

Die Suid-Afrikaanse Tydskrif vir Kommunikasieafwykings, Vol. 54, 2007

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