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2015 Edition Helping Deaf Children to Hear and Talk The National Paediatric Cochlear Implant Programme 1 2015 Edition Helping Deaf Children to Hear and Talk The National Paediatric Cochlear Implant Programme Helping Deaf Children To Hear And Talk The National Paediatric Cochlear Implant Programme The National Paediatric Cochlear Implant Programme Beaumont Hospital/Children’s University Hospital Temple Street Tel: (01) 809 2191 Tel: (01) 809 2013 Fax no: (01) 809 2753 Text Beaumont phone: 087 953Hospital/Children’s 5423 e-mail: [email protected] University Hospital Temple Street Tel 01 809 2191 - General Enquiries & Spare Parts Tel 01 809 2013 - Paediatric Appointments Helping Deaf Children Fax 01 809 2753 Text tel 087 953 5423 e-mail [email protected] To Hear And Talk Original written by: Jennifer Robertson, Claire Sheehan & Jaclyn Smith Revised by: Jennifer Robertson with fromTeam all the Cochlear Implant Team with contributions from contributions all the Cochlear Implant Revised 2015 by Jennifer Robertson With thanks to Cochlear Europe Ltd for permission to use images and to Nottingham Cochlear Implant Programme and the Ear Foundation With thanks to Cochlear Europe Ltd for permission to use images and First Printed 2005 Cochlear Implant Programme and the Ear Foundation to Nottingham Revised May 2012 Due for review 2017 First Printed 2005 Revised May 2015 Due for review 2020 1 The National Paediatric Cochlear Implant Programme / Helping Deaf Children to Hear and Talk 2 2015 Edition Contents The Paediatric Cochlear Implant Programme The Service The Technology What is a Cochlear Implant? How Does A Cochlear Implant Work? The Internal Device The External Components How Do You Hear With a Cochlear Implant? Who Is Suitable? The Cochlear Implant Process The Assessment Phase Audiological Evaluation Speech & Language Assessments Teacher of the Deaf Scans Psychological Assessment Onward Referrals Group Information Sessions Making the Decision The Final Decision Surgery What Does The Operation Involve? How Long Does The Operation Take? Are There Any Risks? Fitting & Tuning of the Speech Processor What Happens After Initial Tuning? Outcomes Frequently Asked Questions Testimonials Useful Websites 4 4 4 4 4 4 5 5 5 6 7 7 7 7 7 7 7 8 8 8 8 8 8 8 9 9 10 12 13 16 3 The National Paediatric Cochlear Implant Programme / Helping Deaf Children to Hear and Talk The Paediatric Cochlear Implant Programme The National Paediatric Cochlear Implant Programme was established in 1995 as an extension of the Adult Programme. It is based in Dublin at Beaumont Hospital and the Children’s University Hospital, Temple Street, and is supported by the resources of these major teaching hospitals. All assessment and rehabilitation takes place in Beaumont Hospital, and the surgery for children under 6 years old takes place in Temple Street Hospital. There is a multidisciplinary clinical team consisting of: ›› ›› ›› ›› ›› ›› ›› ›› ›› Consultant ENT Surgeons Teachers of the Deaf Speech and Language Therapists Audiological Scientists Clinical Psychologist Medical Physicist Specialist Nurse Administrators Cochlear Support Workers There is also access to: ›› ›› ›› ›› ›› Interpreters Radiology Department Consultant Geneticist Consultant Ophthalmologist Consultant Paediatrician The Paediatric Programme is committed to achieving a comprehensive family friendly service for the assessment and management of children with a severe/ profound hearing loss. The National Cochlear Implant Programme has developed programmes recognised both nationally and internationally for children and adults with over 800 people having successfully received cochlear implants by the end of 2014. Since July 2014 bilateral cochlear implants have been offered to children suitable for two implants. The Service Our service assesses children, including those with complex needs, for suitability for cochlear implants. If deemed appropriate we then offer the necessary medical, surgical and post-operative management and rehabilitation. Cochlear implantation in young children requires a unique combination of technology, skills and long-term child and family support, while the child learns to use the new auditory sensation provided by the implant system. Our facilities and staff provide this comprehensive range of services. 4 The Technology Cochlear implantation is now established as a routine clinical procedure to provide useful hearing sensation to those with a severe / profound hearing loss. For young, profoundly deaf children, cochlear implants provide the opportunity to learn to communicate effectively using spoken language. The National Paediatric Cochlear Implant Programme regularly reviews the technology used, ensuring the latest developments are available. Since July 2014 bilateral implantation is being offered where appropriate, as per international best practice. What is a Cochlear Implant? A cochlear implant is a highly sophisticated electronic device that provides a hearing sensation for people with a severe / profound hearing loss. It replaces the function of the damaged inner ear (cochlea) by electrically stimulating the hearing nerve (also known as the auditory or VIIIth nerve) to produce a sensation of sound. It can improve communication abilities and give awareness of everyday sounds. Worldwide over 324 000 severe-to-profoundly deaf people of all ages, had become cochlear implant recipients by 2012. Throughout this period improvements to cochlear implantation technology have provided benefit to every age group of recipients How Does A Cochlear Implant Work? A cochlear implant sends an electrical message through a wire called an electrode directly to the hearing nerve, bypassing the damaged or absent hair cells in the cochlea. This means, provided the hearing nerve is still working, profoundly deaf people can hear sound. With developments in technology and with expanding cochlear implant candidacy criteria, many people can now benefit significantly, and their quality of life can be improved with cochlear implants. The cochlear implant consists of both internally implanted and externally worn components. The Internal Device The internal device consists of a receiver and electrode array. Figure 1 shows the Nucleus system. The electrode array consists of 22 active platinum electrode bands. It is inserted into the cochlea by the surgeon, and the 22 electrodes can stimulate multiple sites within the cochlea to give a hearing sensation for all speech sounds. The electrodes of the cochlear implant are connected to a small control circuit called the receiverstimulator. There is a magnet to enable the external transmitter coil to be held in place (see below). All of this is placed under the scalp during surgery. The Internal Device 2015 Edition The internal device consists of a receiver and electrode array. Figure 1 shows the Nucleus system. The electrode array consists of 22 active platinum electrode bands. It is inserted into the cochlea by the surgeon, and the 22 electrodes can stimulate multiple sites within the cochlea to give a hearing sensation for all speech sounds. The electrodes of the cochlear implant are connected to a small control circuit called the receiver-stimulator. There is a magnet to enable the external transmitter coil to be held in place (see below). All of this is placed under the scalp during surgery. Receiver - Stimulator Plate Electrode Antenna How Do You Hear With a Cochlear Implant? The ear level microphone (1) picks up sound, which is then sent to the speech processor. The speech processor converts the sound information into an electrical signal. This information is then sent to the How Do You Hear With a Cochlear Implant? Reference transmitting coil (2), and crosses the skin to the internal electrode 22 Electrode The ear level microphone picks up sound, then sent to the speech receiver stimulator(1)via radio signal.which This issignal is then Array processor. The speech processor converts the sound information into an decoded to determine which electrodes should be electrical signal. This information is then sent to the transmitting coil (2), and stimulated and at what level. The appropriate electrodes crosses the skin to the internal receiver stimulator via radio signal. This signal in the cochlea (3) are stimulated and should they send electricaland at Figure 1: The Nucleus cochlear implant and electrode array (not to is then decoded to determine which electrodes be stimulated Figure 1: The Nucleus cochlear implant and electrode array (not to scale) scale) the auditory nervein(4). auditory what impulses level. The to appropriate electrodes the The cochlea (3) are stimulated and they nerve send electrical impulses to the auditory (4).they The are auditory nerve sends the signals to the brainnerve where sends the signals to the brain where they are interpreted as sound. This The External Components interpreted as sound. This whole process happens at The External Components whole process happens at the same speed as normal hearing. the same speed as normal hearing. The External Components The of of thethe equipment consists of a battery (or rechargeable cell) Theexternal externalpart part equipment consists of a battery driven speech processor. The processor connected to a transmitting coil by a (or rechargeable cell) driven speechisprocessor. The The External Components 2 The externalinpart of the equipment consists battery (or rechargeable cell) cable. There is a magnet the middle of the coil that holdsof thea external device processor isdriven connected to a transmitting coil by isa connected cable. speech processor. The processor to a transmitting coil by a onto the implant that is underneath skin(oratrechargeable the back of the ear. Over the The external part of the equipment consists of athe battery cell) There isprocessor. a have magnet inseveral theis middle of in the that holds the driven speech The processor connected tothe acoil transmitting coil bycoil a that both cable. There aisdifferent magnet middle of the holdsbody the external device years there been models of speech processor, cable. Thereand is a device magnet inonto the middle ofbelow the that holds the device external the implant that is2)underneath the onto the implant thatcoilis underneath the Nucleus skin at Series the back of the ear. Over the worn ear level. Pictured (figure are external the 6 speech onto the implant that is underneath the skin at the back of the ear. Over the 1 body3 skin at the– back of the ear. the Over theand years there have and years there have been several different models of speech processor, both processors the BTE (behind ear) the body worn, the Nucleus 6 4 years there have been several different models of speech processor, both body worn and ear level. Pictured below (figure 2) are the Nucleus Series 6 speech processor being worn (figure 3). Young children, and occasionally some adults, different speech processor, worn been and earseveral level. Pictured belowmodels (figure 2)ofare the Nucleus Series 6 speech are with thethebody worn configuration initially. The external speech processors –ear) the BTE (behind the ear) and the worn, and the Nucleus 6 processors –body the BTE (behind and the body worn, and the(figure Nucleus bothprovided worn and ear level. Pictured below 2)6 body processor being worn (figure 3). being Young children, and occasionally some adults, and occasionally some adults, processors are fitted about one month after surgery. processor worn (figure 3). Young children, are the Nucleus Series 6 speech processors – thespeech BTE are provided with the worn configuration initially.worn The external arebody provided with the body configuration initially. The external speech (behind the about ear) and the body worn, and the Nucleus processors are fitted one month after surgery. processors are fitted about one month after surgery. 6 processor being worn (figure 3). Young children, and occasionally some adults,BTE are speech provided with the (left) and body Figure 2: The Nucleus 6 Series processor Figure 2: The Nucleus 6 Series BTE speech processor (left) and body worn speech processor (right) body worn configuration initially. The external speech Figure 4: Transmission of sound using the cochlear implant wornprocessors speech processor (right) are fitted about one month afterBTE surgery. Figure 2: The Nucleus 6 Series speech processor (left) and body Magnet worn speech processor (right) Who Is Suitable? Figure 4: Transmission of sound using the cochlear implant We consider children for implantation if the following are met: Whocriteria Is Suitable? We consider children for implantation the following criteria are met: ›› Bilateral severe / profoundif sensori-neural hearing loss. Bilateral severe / profound sensori-neural hearing loss. Aged under years if spoken language has not • ›› Aged under fivefive years if spoken language has not developed. developed. Ideally, children born profoundly deaf who have not acquired spoken language should receive their cochlear implant before the age of five. Otherwise it becomes for thehave childnot to make sense Ideally, children bornincreasingly profoundlydifficult deaf who of the new auditory sensation, and to learn to listen and talk. If the Figure 2: The Nucleus 6 Series BTE speech processor (left) and body acquired spoken language should receive their cochlear child has already acquired spoken language, age is not a worn speech processor (right) implant factor. before the age of five. Otherwise it becomes increasingly difficult for the child to make sense of the • new Limited auditory speech discrimination ability Figure 3: The speech processor being auditory sensation, and to learn to listen and talk. If worn The external parts of the implants can the child has already acquired spoken language, age is be removed at any time, for example, when not a factor.being sleeping. When Figurethey3: are Theremoved, speech no processor hearing sensation wornoccurs. The external parts of the implants can be removed at any time, for example, when speech discrimination ability ›› Limited auditory Figure The removed, speech processor being sleeping. When they3: are ›› Have parentsnowho understand the long-term worn The external parts of the implants can hearing sensation occurs. commitment involved in cochlear implantation and will Figure 3: The speech processor be removed at any time, for example, when being worn The external parts ensure attendance at the Cochlear Implant Centre for sleeping. When they are removed, no of the implants can be removed ongoing management. hearing sensation occurs. at any time, for example, when sleeping. When they are removed, no hearing sensation occurs. ›› Have local professionals who support the process of cochlear implantation and will provide consistent oral/aural input whatever the educational or 5 The National Paediatric Cochlear Implant Programme / Helping Deaf Children to Hear and Talk communication setting. ›› Appropriate inner ear and hearing nerve anatomy as shown on MRI scan Paediatric Cochlear Implant Programme Assessment Schedule Children with additional disabilities or complex needs are also considered for cochlear implantation. Referral Initial Medical Consultation Initial contact to: Audiological Scientist ENT Consultant What Factors Influence Progress with a Cochlear Implant? The multi-channel cochlear implant provides the severely or profoundly deaf child with access to auditory speech information. Following implantation the child has to (re) learn to “listen” and use the information provided by the implant/s. Some children learn to make better use of this auditory information than others. Good listening skills are the essential building blocks for developing spoken language. There are several factors that can affect how a child develops listening and talking, including: ›› ›› ›› ›› ›› ›› ›› ›› ›› ›› ›› ›› ›› ›› ›› ›› ›› Age at implantation Age at onset of hearing loss Length of profound deafness prior to implantation Degree of residual hearing and hearing aid use prior to cochlear implant Presence of additional needs Presence of processing difficulties or additional language difficulties Number of active electrodes Cause of deafness Experience using an implant Communication mode Educational setting Consistency of (re) habilitation and support from family, peers and professionals Auditory memory Attention skills Learning ability Consistency of processor use post implant Child’s own motivation and personality As each child is an individual, we aim to ensure that the expectations of the child’s family and friends are realistic and achievable. The Cochlear Implant Process The decision to implant the deaf child begins a lifetime’s support, through childhood, adolescence and into adulthood. If the decision is made to go ahead with cochlear implants, the time from initial consultation to implant surgery varies depending on assessment needs and waiting lists, but is usually about 9 months. 6 Assessment Phase Evaluation of hearing Initial Communication / Educational Assessment Information counselling MRI scan Further individual assessments or visits to home or school may take place as needed Reports to Parents & Local Professionals Medical Review Consultation Results of MRI scan Discussion and shared decision Information/consent form Final Medical Review Consultation Sign consent form Date for surgery Surgery Admitted day before or day of surgery Discharged approx 1-2 days after surgery Switch On (approx. one month after surgery) Learning to use the speech processor Habilitation and regular assessments to monitor progress Life-long support & maintenance 2015 Edition The Assessment Phase Speech & Language Assessments Audiological Evaluation During the assessment phase the child will also attend for appointments with a speech and language therapist on the team to assess their communication, listening skills and pre-verbal development. If the decision is made to go ahead with cochlear implantation, this will include an assessment, the results of which will be used as a baseline from which to monitor progress over the coming years. The assessment phase is very important and will be carried out in conjunction with the family and local professionals. After referral, the parents and child attend a medical appointment during which they meet the ENT medical team, and are told about the various assessments that are part of the process. The next phase will involve an audiological evaluation of the child’s hearing to confirm the type and degree of hearing loss and to establish the auditory benefit the child is gaining from their hearing aids. Auditory Brainstem Response (ABR) testing will be arranged for children who are too young or unable to participate in co-operative behavioural hearing tests. ABR testing is an objective hearing test performed either under sleep (with very young babies) or under a general anaesthetic. For more information please read the ABR leaflet. Several appointments for hearing assessments may be required to ensure that the hearing test results are consistent and accurate. It is ideal for children to attend the CI Programme with hearing aids as a hearing aid trial is critical before a final decision can be made about cochlear implantation. Hearing aids are fitted and maintained through local audiology services. It is important that the best hearing aids and earmould combinations are provided to determine the benefit obtained from high powered digital hearing aids. Assessment of what sounds the child hears with hearing aids may indicate that despite being a good hearing aid user, the child is not hearing enough speech information for good spoken language development. In this case cochlear implantation will be considered. On the other hand, assessment may indicate that the child has good access to speech and is making good progress with acquiring spoken language, therefore, cochlear implant/s may not be suitable for them currently. However such children will continue to be carefully monitored for any changes or deterioration in hearing levels. If a child has a hearing loss due to meningitis, the assessment procedure will be expedited as in some cases the inner ear can become blocked by the formation of bone (ossification), which could make it very difficult or impossible for the surgeon to place the implant electrodes accurately in the cochleas. Therefore, the decision to proceed with implants may be made more quickly, in which case this would be discussed with the family in detail by the implant team. Teacher of the Deaf A teacher of the deaf from the team will liaise with the child’s local visiting teacher of the deaf, may visit the child at home and, if appropriate, at school to assess their functioning in their local setting. Scans A Magnetic Resonance Imaging (MRI) scan is carried out under sedation or general anaesthetic unless the child is older, as it is essential to lie completely still. An MRI is a sophisticated scan, which is used to assess the structure of the inner ears, the auditory nerves and the brain. An appointment will be made a few weeks later with the medical team, who will explain the results of the scan. If the child is suitable for cochlear implantation, the surgeon will also explain the risks of the operation and any further assessments that may be necessary. Psychological Assessment The clinical psychologist with the Cochlear Implant Programme may also meet with the family and the child. Often it is important to find out about children’s understanding or cognitive abilities, their behaviour and their social development and play skills. This information is sometimes important in deciding whether to proceed with a cochlear implant and can help in making a decision about the child’s schooling. The psychologist can assess these areas using formal tests but can also meet with parents or children if they are worried or upset about any other issues. The psychological assessment process can often take up to two or three appointments to complete but this will be discussed at the time. Onward Referrals As a significant proportion of hearing loss has a genetic basis, or is associated with other medical issues, children are referred to a paediatrician for further assessment as required. Often parents would like to find out why their child is deaf. In a number of cases, the paediatrician or the geneticist is able to pin point the cause of the hearing loss and may be able to advise parents of any risk that future children, or their children’s children, may inherit the 7 The National Paediatric Cochlear Implant Programme / Helping Deaf Children to Hear and Talk deafness. Not all genes or other factors causing a hearing loss are known. Some parents decide that they do not wish to know if a gene has caused the hearing loss. Any referral for genetic testing is based upon parental request. Hearing loss can occasionally be associated with syndromes and other medical issues, consequently, the child may be referred to other medical specialists e.g. to assess their vision etc. Group Information Sessions Parents will be given the opportunity to attend information and support meetings within the department. This will include information on cochlear implants, development of spoken language, realistic expectations etc. There will also be an opportunity to meet parents of children with cochlear implants and the children themselves. This helps to develop a better understanding of the whole process and the level of commitment required to maximise the benefits from the cochlear implant. How Long Does The Operation Take? The operation takes approximately 4 hours if two cochlear implants are being inserted, and less for only one implant. After surgery children remain in hospital for at least 24 hours, but in most cases are up and out of bed the following day ready for discharge! The child will have a large bandage on their head for 24 hours, but after that no further dressing is required. Making the Decision Are There Any Risks? There will be ongoing discussions about making the decision regarding implantation e.g. whether everyone concerned feels that it is the right route forward for the child. There are some risks involved with the cochlear implant operation but no more than the risks involved with any major ear surgery. The risks associated with cochlear implant surgery include: If the child is old enough, he/she will be encouraged to participate fully in the decision. Families should make sure they know how their child feels about having cochlear implants, as his/her feelings are very important. ›› Risks associated with the use of general anaesthetic, as for any surgery ›› Risk of inflammation or infection ›› Disturbance or damage to the facial nerve leading to a facial paralysis ›› Stiffness or numbness around the ear ›› Disturbance of taste or balance ›› Possibly changes in head noises (tinnitus). ›› Possible inability to fully place the electrode within the cochlea. The Final Decision Following completion of all the assessments the team will meet with the family and discuss the suitability of cochlear implants for the child. Remember, any final decision to proceed with cochlear implants lies with the family! A final visit to the implant centre is arranged in order to confirm the decision, and to discuss any final issues before final consent is given and a date for surgery is arranged. Surgery What Does The Operation Involve? Patients are admitted to the hospital either a day before or on the morning of their implant operation. During the operation, the surgeon implants the internal parts of the cochlear implant/s underneath the skin. A small area of 8 hair is shaved, but this hair will grow back quickly after the operation. There will be a small scar that is generally covered by hair. The body of the implant sits just behind the ear and the delicate electrode array is inserted into the chamber of the inner ear (cochlea). The audiological scientist will perform intra-operative checks of electrode function, called NRT (Neural Response Telemetry). This ensures that the electrodes are working properly, and also gives the scientist some important information to use at the initial tuning and fitting of the speech processor. Vaccinations against meningitis are advised prior to surgery as there have been some reports that patients with cochlear implants, and / or inner ear malformations may have a slightly higher risk of meningitis. The vaccinations significantly reduce any such risk. The cochlear implant surgeon will discuss the risks in more detail before the operation. While it is important to be aware that these complications can occur, in practice there have been very few significant negative side effects worldwide for people receiving cochlear implants. 2015 Edition Fitting & Tuning of the Speech Processor Approximately one month after surgery the child will attend the Cochlear Implant Programme to have the external speech processors fitted and “switched on”. The external speech processors are placed on the child. Some children need to be coaxed to accept what is a new and unfamiliar device. If hearing aids have not been worn consistently it may take some time to persuade the child to wear the speech processors. When the system is in place, the audiological scientist connects each speech processor to a computer and performs the electrode checks again (Telemetry) to ensure that the internal component is still working correctly. An initial programme or MAP will then be made, primarily based upon the NRT measurements obtained during surgery. Programmes are made to use the NRT measurements cautiously as a “guide” for the initial programmes. Older children will participate in further co-operative testing that gives us feedback on their individual programme needs. When the speech processors are switched on, usual reactions from children include: 1.No reaction 2.Stilling, looking bemused 3.Searching 4.Getting upset 5.Turning / running to parent(s) for reassurance There are no typical reactions as each child is different. Although we do not wish to surprise or frighten children with the new sensations, any adverse reaction should be looked at as a positive reflection – that the child responded to the strange sensation. Alternatively, some children just do not react behaviourally, despite neural telemetry having indicated that the nerve is responding to sound. Once the cochlear implants are switched on the child needs time to adapt to the new sound quality. If the brain has not heard sound before the sounds will be very strange at first. The MAPs in the speech processors will need to be fine-tuned over the coming months. The biggest changes in sound quality will generally happen in the first few months, and frequent tuning sessions will be required initially. What Happens After Initial Tuning? Following the initial tuning the child will attend for further tuning sessions until the audiological scientists are satisfied that the MAPs give the child good access to the full range of speech sounds. This is when the real work (and hopefully fun!) begins. There will be regular appointments with the speech and language therapist over the next few months to work with the child to facilitate listening and spoken language development. More importantly the speech and language therapist will work with the family to help the family learn how best to do this at home and in everyday life – families are the most important people on the rehabilitation team! After the first year, depending on the level of support available locally and how the child is progressing, the frequency of appointments with the speech and language therapist at the Cochlear Implant Programme will reduce. The support of local professionals is required wherever the child lives to ensure that the child makes the most use of the sound provided by the implant. The cochlear implant team works closely with the family and local professionals. Outreach support is also provided to the child’s home and school to ensure that everyone involved locally has the necessary expertise and skills to support use of the implants. The most important members of the team are, however, the child and the family themselves. While other team members provide advice and guidance, it is the support and language rich environment provided by the family that plays the main part in determining the child’s effective use of their cochlear implant. In addition to ongoing speech and language therapy sessions to facilitate listening and spoken language development the speech and language therapist also carries out regular formal assessments to monitor progress. These are carried out at set intervals: ›› Pre-cochlear implant ›› Year 1,2,3,4,5,7 and 10 post implant The results of these assessments help us to plan therapy programmes best suited to the child’s needs, and are always made available to parents and local professionals to make sure that we are all working together. Over time the implant centre speech and language therapist aims to hand over much of the regular therapy to the local speech and language therapist, but will always be available to liaise and advise as necessary. The teacher of the deaf will liaise with the local visiting teacher of the deaf and/or school, and may visit the child at home or in school. Broadly speaking, the role of the Implant Centre teacher of the deaf is to ensure that local teachers and families have all the specialist information they need to ensure that good implant use forms the basis of effective learning. 9 9% 43% 21% The National Paediatric Cochlear Implant Programme / Helping Deaf Children to Hear and Talk 43% 21% 17% 2% 0% 3% Outcomes Category 0 5% 4% 8% 4% 8% 9% 11% Category 2 8% 31% 23% 17% 31% 8% 4% 7% 0% 3% 7: uses the telephone with a known speaker 6: understands conversation without lipreading 5: understands common phrases without lipreading 4: discriminates some speech43% sounds 31% without lipreading 3: identifies environmental sounds 2: responds to speech sounds 1: aware of environmental sounds 0: no awareness of sound 5% 1% 0% 2% Category 0 0% 3% Category 1 5% 9% Category 2 9% 49% Category 3 Category 5 Category 6 21% 21% Category 7 31% 17% 17% 4% 4% 8% 8% Category of Auditory Performance 5 Yrs Post CI: All Children, National Cochlear Implant Programme 0% As approximately 40% of deaf children have additional 0% 15% needs, for example learning difficulties, autistic 1% 0% 15% disorder, additional speech and language spectrum difficulties, we also looked separately at outcomes for this group of children. 11% 8% Category 0 20% 10 31% 49% Category 1 Category 2 49% 21% 23% 20% 17% Category 3 Category 4 Category 3 Category 4 Category 5 Category 6 Category 7 Category 5 17% Category of Auditory Category 6 Performance 5 Yrs Category 7 Post CI: Children with No Additional Needs, National Cochlear Implant Programme 7% The Speech Intelligibility Rating scale (SIR) was devised 15% by Dyar and Allen (1998) and measures the progress Category 0 in speechCategory intelligibility for children acquiring spoken 1 language Category post 2implant, and the rating scale is outlined below: Category 3 20% 8%4 Category Category 0 Category 5 ›› 6: speech intelligible to all listeners Category 1 Category 6 ›› 5: speech intelligible to listeners with little experience Category 7 Category 2 of deaf speakers Category 3 ›› 4: speech intelligible to a listener who concentrates 17% Category 4 23% and lipreads Category 5 ›› 3: speech is unintelligible ›› 2: primary mode of communication is manual, Category 6 vocalisations may give some additional information Category 7 ›› 1: pre recognisable words in spoken language The charts below show speech intelligibility for all children, children with additional needs and children 4% with no additional needs 5 years post cochlear implant. 7% As with listening skills, the children with additional needs are likely to struggle more to achieve intelligible speech. 2% Category 0 8% Category 2 8% Category 4 43% Category 1 4% 49% 0% 5% Category 0 2% 7% 17% 11% 8% Category of Auditory Performance 5 Yrs Post CI: Children with Additional Needs, National Cochlear Implant Programme Children with no additional needs are likely to make 0% progress more quickly, and to achieve better listening 15% language 0% skills in the long term. and spoken 1% 2% Outlined below are charts that should give some idea of outcomes for speech understanding using listening 0% 1% only. Intelligibility 8%2%Speech 4% 4% 3% Category 7 Category 0 Category 1 9% 0% Category 5 Category 6 21% The Categories of Auditory Performance (CAP) scale 11% was devised by Archbold et al (1995) and measures a child’s progress in ability to make sense of the 2% sound provided by the implant, categorising auditory perception as outlined below: 2% Category 4 15% 23% 4% Category 3 0% 11% Functional Hearing ›› ›› ›› ›› Category 1 0% 15% Every child who has a cochlear implant is an individual, and as such outcomes and progress vary hugely from child to child. However, the National Cochlear Implant 43% Programme in Ireland has now been running for some considerable length of time, and we are able to provide information about predicted outcomes and average performances. But it is important to remember that there are many factors that affect performance and each child’s individual situation should be discussed with the team. ›› ›› ›› ›› 17% Category 1 Category 0 Category 2 Category 1 Category 3 20% Category 2 Category 0 Category 3 Category 1 Category 4 Category 2 Category 5 Category 3 Category 6 Category 4 Category 7 Category 5 Category 6 Category 7 2015 Edition 4% 4% 4% 8% 8% 8% Category 1 Category 2 10% 10% 10% Category 3 4% The charts below show current numbers attending 8% the different types of school. Category 4 10% Pre School Placement Category 5 35% 35% 35% 22% 22% 22% 4% 4% 4% 100 35% Pre School Placement Speech Intelligibility Rating 5 Yrs Post CI: All Children, National Cochlear Implant Programme 21% 21% 21% 12% Category 6 80 100 22% Pre School Placement 60 80 100 40 60 80 21% 19% 19% 19% 12% 12% Category 1 20 40 60 4% Category 2 Category 3 0 20 40 Category 4 19% 15% 19% 19% 15% 15% Category 5 Category 6 Speech Intelligibility Rating 5 Yrs Post CI: Children with Additional Needs, National Cochlear Implant Programme 31% 31% 31% 1% 1% 1% 7% 7% 7% Category 1 7% 7% Category 2 At home Regular Preschool Deaf Dual Preschool Special Pre Preschool Placement School Category 5 39% 23% 39% 39% Category 6 23% 23% 23% 23% 23% Speech Intelligibility Rating 5 Yrs Post CI: Children with No Additional Needs, National Cochlear Implant Programme Educational Placement There are many options with regard to educational placement for children with cochlear implants. Some attend their local mainstream school, some attend a school for the deaf and some attend a unit with facilities for deaf children attached to a mainstream school. Again every child has different needs and the visiting teacher of the deaf, implant centre teacher of the deaf and other team members will help with making the right decision for each child. Now that the Cochlear Implant Programme has been running for over 20 years many of the children have made the transition to adulthood, and a number have progressed to third level education and beyond. 10% 200 Figure 6: Pre-school placement of children with cochlear implants At home Regular Deaf Dual Preschool Special Pre School Primary School Placement Preschool Preschool Placement 1000 19% 35% At home Primary 80 100 15% 22% Regular Deaf Dual Preschool Special Pre PreschoolPlacement Preschool Placement School School Primary School Placement 60 80 100 31% 21% 4% 20 40 60 0 20 40 200 4% 1% 12% Category 3 Category 4 19% 8% 12% 40 60 80 7% 4% 19% 8% 7% 7% Mainstream Mainstream School for the Deaf Unit for Deaf 19% 35% for School the Deaf Unit for Deaf 10% Special School Special School Secondary School 39% Placement 0 Figure 7: Primary school placement of all children with cochlear Mainstream School for Unit for Deaf Special School 100 implants 15% 22% 23% the Deaf Secondary School Placement 80 100 Secondary School Placement 31% 21% 60 80 100 23% 4% 40 60 80 1% 12% 19% 7% 20 40 60 0 20 40 200 0 7% Mainstream School for the19% Deaf 39% Unit for Deaf Special School 15% Mainstream School for the Deaf Unit for Deaf Special School Mainstream School for the Deaf Unit for Deaf Special School 23% Figure 8: Secondary school placement of all children with cochlear implants 31% 23% 1% 11 7% 7% The National Paediatric Cochlear Implant Programme / Helping Deaf Children to Hear and Talk Frequently Asked Questions (FAQs) Q Can my child participate in sports with a cochlear implant? Yes. The implant should not prevent participation in leisure activities, with a few exceptions eg. boxing, rugby, and martial arts. It is advised that a helmet be worn for any contact sports to avoid damage to the internal or external components of the implant. When swimming the processors can be removed or a special swimming accessory (Nucleus Aqua + or Aqua Accessory) can be worn over the processors to allow continued use in the water. Q Are there any costs I need to cover for the operation/ implant/ processor? No. The National Cochlear Implant Programme provides a public service and can therefore offer all services and devices free of charge to patients who are implant candidates. However you are responsible for travel costs to and from appointments, although in some circumstances you may be able to obtain financial assistance through your local Community Welfare Officer. If you do not have a medical card you will also be charged for the stay in hospital, which you can reclaim if you have medical insurance. You may also choose to buy batteries rather than use rechargeable options. Q Where do I get spare leads/accessories? The Cochlear Implant Programme is able to supply a limited number of spare leads and accessories per patient. However, the family is able to purchase extra accessories directly from the implant manufacturer. Some parts have a one year warranty, after which they will need to be purchased privately if replacement is needed, and other optional accessories also need to be purchased separately. This will be clearly explained before surgery. Q Can I have a spare processor? No. We are only funded to issue each patient with one processor per internal implant as they are very expensive. Q Can I purchase a spare processor? Yes. The team can provide you with information as to how you can purchase your own speech processor. Just keep in mind the cost is approximately €6000. Q What happens if I go on holiday and need spare parts? You are able to avail of the 'Travel Programme’ from the implant company (Cochlear Europe Ltd), which includes all spare parts and a speech processor. There is a fee for this service and it is an agreement between you and the implant company. Q What is the life expectancy of the external speech processor? The speech processor is an electronic device and is therefore subject to faults or breakdowns. A wellminded processor should last for 3-5 years. Q When the implant is in place, does it stay there for life? The system is designed to accommodate growth so that very young children can be implanted. Cochlear implants can and do break down like any electrical device, however the failure rate is extremely low. It is usually possible to replace the implant if there is an internal problem. If later in life technological advances would be of benefit replacement may also be considered. Q What happens when the implant is not working/ broken? You can do minor repairs (i.e. replacing leads) at home. However if the processor is still not functioning properly it can be checked over by someone on the team during standard working hours. If we are unable to fix the processor we will issue you with a replacement and send the other for repair. Q Can patients hear when they wake up after surgery? Not yet. The surgeon has only fitted the internal parts of the device. There is a wait of approximately one month after surgery before the external parts of the device can be fitted and activated. This is to allow healing to take place, and for any swelling or tenderness around the implant site to subside It is important for you or other family members to ask any questions that you have. If you are unsure about anything please ask. It can be useful to make a note of any questions that you may have so that you do not forget when you are in the hospital. Do not hesitate to ask. It’s your child and we will do our best to answer your questions. 12 2015 Edition Testimonials Testimonials Susan & Emmet, Parents of Thomas, Unilateral CI March 2009, Aged 2 ½ was diagnosed profoundly deaf SusanThomas & Emmet, and was fitted with two hearing aids at 19 Parents of Thomas, months. He had no speech and Unilateral CI March using gestures for his communicated 2009, needs. Aged He 2 ½was implanted at 29 months and at “switch on” had no real reaction. The first time Thomas displayed a real Thomas was diagnosed reaction to sound was around two weeks profoundly deaf and was Pier and Thomas later walking on Howth started fitted with twoclapping hearingto the sound of a playing the accordion. It was a aids atmusician 19 months. very emotional moment for us as a family. He had(Thomas no speech has two older hearing brothers). and communicated using gestures for his Karen, Unilateral CI August 2009, Aged 9 needs. He was implanted at 29 months and at In the early days, weeks, and months the implant team and Thomas’s visiting “switch on” had no real reaction. The first time teacher gave us invaluable advice, encouragement and support as a family Thomas displayed a real reaction to sound was Karen, Unilateral CI towards helping Thomas on his journey to hear and talk. around two weeks later walking on Howth Pier August 2009, My Aged name9is Karen, I’m 11 now Thomas be five next monthclapping and has just school.ofWhat his implant Cochlear Implant when I wa andwill Thomas started to started the sound has helped him achieve is unbelievable. He can talk on the phone, he can deaf and at first my pa a musician playing the accordion. It was a very My name isborn Karen, hear upstairs if we call him from downstairs, he can sing “Happy Birthday”, know was deaf because I co emotional moment forofus asofathe family. (Thomas I’m 11 now. I got Ithe and he can tell you the names most Barcelona FC team! His passion so I was nearly 3 when I g is football both Gaelic and soccer. His favourite book is “The Troll” by Julia has two older hearing brothers). Cochlear Implant when Donaldson and he can recite chunks of the story by heart! He is constantly Aids. It’s been I was 9. I was born deaf almost 2 years asking us questions and is generally a little chatterbox! The sound of his voice Implant and I’m so glad I In the early days, implant and at first the my parents chatting away is the most weeks, beautiful and soundmonths and one the we never dreamed as a go for I thought I could he team Thomas’s teacher us didn’t know I was it. deaf family mightand happen when we visiting were at the start of gave this journey. Hearing Aids invaluable advice, encouragement and support because I could lip-read but since I got t (Written in 2011) I realised I couldn’t hear very as a family towards helping Thomas on his so I was nearly 3 when I rely entirely on my Cochle journey to hear and talk. I got Hearing Aids. It’s now!!! J been almost 2 years since I got the Implant and Thomas will be five next month and has just I’m so glad I decided to go for it. I thought I could started school. What his implant has helped hear with my Hearing Aids but since I got the him achieve is unbelievable. He can talk on the Implant realised couldn’t hearlisten very well at all.on I my phone and I can hear theI TV a lot Ibetter, I can to music phone, he can hear upstairs if we call him from rely entirely on my Cochlear ImplantBefore now!!! IJwas always asking ov have to ask everyone what’s happening? downstairs, he can sing “Happy Birthday”, and he over again to repeat what they’re saying and I mostly had to lip-r can tell you the names of most of the Barcelona TV switch a lot better, can listen music school.I can Oh, hear and the I can it off I when I’m to annoyed!J I never u on my phone and I the don’tclock haveticking, to ask everyone FC team! His passion is football both Gaelic and hear the phone ringing, water running. It was stra what’s happening? was always asking soccer. His favourite book is “The Troll” by Julia first, so I didn’t even knowBefore what Ithe sound was!!! J I love playing spor over again repeatas what they’re Donaldson and he can recite chunks of the story find it over a lot and easier with the to implant I can hear saying the coaches, the refer andmates I mostly had to lip-read in school. Oh, and by heart! He is constantly asking us questions my team calling. switch off when annoyed! J I never and is generally a little chatterbox! The sound OverallI can it has madeit my life so I’m much easier.J used to hear the phone ringing, the clock ticking, of his voice chatting away is the most beautiful (Written in 2012) water running. It was strange at first, so I didn’t sound and one we never dreamed as a family even know what the sound was!!! J I love playing might happen when we were at the start of this Iman,sport Unilateral CI itFebruary 2005, Aged 2 and I find a lot easier with the implant as journey. (Written in 2011) I can hear the coaches, the referee and my team mates calling. Hello everyone, my Iman Ahsan. I am 9 Overall it has made my life so much easier. JI live in Dublin. (Written in 2012) cochlear implant surg age of 2 years. Doc Viani and her team o 13 and audiologists ope me. The cochlear im I rely entirely on my Cochlear Implant divisions and multiplication. I wish to thank the cochlear implant team for all now!!! J their help and support. in 2012) The National Paediatric Cochlear Implant Programme / Helping Deaf Children(Written to Hear and Talk Christine and David, Parents of Jack, Unilateral CI November 2009, I can hear the TV a lot better, I can listen to music on my phone and I don’t Aged 3 ½ have to ask everyone what’s happening? Before I was always asking over and Our son Jack was born in March 2006 over again to repeat what they’re saying and I mostly had to lip-read in and in and 2007 David, was diagnosed with a Christine mitochondrial disorder. Simply put he is school. Oh, and I can switch it off when I’m annoyed!J I never used to Parents missingof3 Jack, of his energy cells. He was hear the phone ringing, the clock ticking, water running. It was strange at diagnosed as being profoundly deaf, Unilateral CI November suffers chronic renal failure which entails first, so I didn’t even know what the sound was!!! J I love playing sport and I 2009, Aged 3 ½6 nights a week, he has being on dialysis find it a lot easier with the implant as I can hear the coaches, the referee and poor muscle tone and probable development delay. He had his cochlear my team mates calling. implant operation November Our son Jack was inborn in 2009 and Overall it has made my life so much easier.J was “switched on” in January 2010. We March 2006 and in 2007 made the decision to accept a place for him on the cochlear was diagnosed with aimplant programme as we felt we wanted to give him every (Written in 2012) mitochondrial disorder. chance of communication. Life is hard enough foris him with dialysis, not Simply put he missing walking, special needs and so on, that Iman, Unilateral CI February 2005, Aged 2 3 of his energy cells. Hebe a benefit to having hearing would him. was diagnosed as being far as we are concerned the implant is a miracle technology and the suffers chronic renal failure which Iman, Unilateral CI everyone, As Hello myprofoundly name isdeaf, cochlear implant team are amazing. We did all the preparation information days prior to implant and knew what6was aheadaofweek, us. Our nowpoor hears entails being on dialysis nights heson has February 2005, Aged 2 Iman Ahsan. I am 9 years old. and 2 years on he is actually listening and understanding. It has not given muscle tone and probable development delay. He I live in Dublin. I had him speech yet, andaI say yet as we never give up hope for him, but we have always understood not guaranteed. However, from the time you had his operation in November 2009 Hello everyone, my name cochlear implant surgery atcochlear thespeech isimplant put the implant on him in the morning, he is babbling all day. We understand and was “switched on” in January 2010. We made is Iman Ahsan. I am age of 92 years. what Doctor Laura his happy, excited sounds are and which his “not-so-happy” sounds are. He now points at his CI wants it on as possible in the decision to harness acceptas aheplace forputhim onsoon theascochlear years old. I live in Dublin. Viani and her team of doctors the morning. implant programme as we felt we wanted to give I had a cochlear first year andon a half was difficult as he constantly used his magnethim piece andimplant audiologists The operated as a chewing toy. would also knock the magnet he didn’t want to every chance communication. Life off is ifhard enough surgery at theme. ageThe of cochlear implant hadHe of listen to you or if he wanted to get your attention. It was frustrating for us, forlife. him just withpopdialysis, special needsYou andhave so 2 years. Doctor Lauraimpact onbut we would it back onnot andwalking, pretend nothing happened. a huge my to doon, a lotthat of “hearing” work with him to helpbe himaunderstand andhim. distinguish having hearing would benefit to Viani and her team of sounds, things hearing people take for granted and it is a huge learning curve doctors and audiologists for parents. We work closely with the CI team, our visiting teacher for the deaf and his special needs school and continue to use Lamh and ISL to As far as we are concerned the implant is a miracle operated on me. The cochlear implant had a enhance any communication. Now I am blessed to be able to hear everything, I can hear my friends talking Eventually he has learned that cochlear without it, he has no sound. He loves music technology and the implant team are impact what on mymy life.mom and dad are saying to me, I enjoy to me, I can huge understand and we think he is trying to “sing” when we have the radio on in the car. He listening to music, I can hear the wind blowing and rain drops falling. amazing. I enjoy We did all the preparation information days prior Now I amone blessed be able tomovie hear everything, going to the cinema, of mytofavourite is “The Muppets”. I lovetotoimplant and knew what was ahead of us. Our now hears and 2 years on he is actually listening can hear my friends talking to me, I can and skating in theson swim and like I going to Phoenix Park, I enjoy cycling park I and It has not given him speech yet, my mom and dad sister. are saying enjoy playing understand just dancewhat 3 with my younger I can understand understanding. my and I say yet as we never give up hope for him, but to me,toI me enjoy listening to music, I can hear the teacher explaining very well, my favourite subject is maths, I like doing we have always understood speech is not guaranteed. wind blowing and rain drops falling. I enjoy going However, from the time you put the implant on him in to the cinema, one of my favourite movie is the morning, he is babbling all day. We understand “The Muppets”. I love to swim and like going to what his happy, excited sounds are and which his Phoenix Park, I enjoy cycling and skating in the “not-so-happy” sounds are. He now points at his CI park I enjoy playing just dance 3 with my younger harness as he wants it put on as soon as possible in sister. I can understand my teacher explaining to the morning. me very well, my favourite subject is maths, I like doing divisions and multiplication. I wish to thank The first year and a half was difficult as he constantly the cochlear implant team for all their help and used his magnet piece as a chewing toy. He would support. (Written in 2012) also knock the magnet off if he didn’t want to listen to you or if he wanted to get your attention. It was frustrating for us, but we would just pop it back on and pretend nothing happened. You have to do a lot of “hearing” work with him to help him understand and distinguish sounds, things hearing people take for granted and it is a huge learning curve for parents. We work closely with the CI team, our visiting teacher for the deaf and his special needs school and continue to use Lamh and ISL to enhance any communication. Eventually he has learned that without it, he has no sound. He loves music and we think he is trying to “sing” when we have the radio on in the car. He is more focused on things and hopefully it will enable him to live a full hearing life. To anyone contemplating this little miracle, you have nothing to lose for your child and a whole new world to give them. 14 (Written in 2012) ou have nothing to lose for your nd CI October 2014 aged 9 m Then I woke up. The lady brought me juice, toast and beans. Then I got sick. Then there was a dinner in the evening. I had a bandage on my hea Dad and Mum took me home. My neighbour 2015 Edition auntie was sisters and Hashir. There was a surprise – a cake. There “You are a brave girl.” After I cut the cake everyone c card. It wasn’t a birthday. It said “Get Well Soon.” Then to bed. Now I have got a second cochlear implant. I second implant until I get my second processor. (May after Christmas.) My operation was okay. (Written in 2014) Fatima, 1st CI May 2007 aged 18mths, 2nd CI October 2014 aged 9 My Second Cochlear Implant Operation Tom and Clare, Parents of Sam, Bilateral CIs July 2 When our son Sam was only three d Tom and Clare, Parents was picked up with the Newborn Sc of Sam, Bilateral CIs July was just eight days old we had 2014, Aged 1 e I went to hospital. Me and mum played loom bands. Then we went . to the playroom. Then , it was time to go for operation. The mask wasIreally it was strawberry. It on my head. justhorrible. slept First again. auntie was smells theregood. andThen myit changed three to horrible smell. Then all the doctors dropped me back to my ake. There was poster. said room. a I slept a little It while. everyone clapped. There was a I woke up. The brought me juice, toast Soon.” ThenThen I was tired. I lady went and beans. Then I got sick. Then there was a implant. I won’t withI had mya bandage on my dinner in hear the evening. head. I just slept Dad and Mum took me ssor. (Maybe before oragain. maybe CIs July home. My neighbour auntie was there and my three sisters and Hashir. There was a surprise – a cake. There was a poster. It said “You are a brave girl.” After I cut the cake everyone clapped. There was a card. It wasn’t a birthday. It said “Get Well Soon.” Then I was tired. I went to bed. Now I have got a second cochlear implant. I won’t hear with my 2014, Aged 1 second implant until I get my second processor. (Maybe before or maybe after Christmas.) My operation was okay. only three days his deafness (Writtenold in 2014) Newborn Screening. When Sam d we had his first Audiology was confirmed that he was hearing aids were fitted at five ear that the benefits would be he Newly Diagnosed weekend s who are considering Cochlear n, which were a huge help and under the excellent care of Dr. Cochlear Implant Department. just two weeks after his first re was no major reaction upon s and react to his name. At first l them off and chew on them or gan to realise that these were appointment where it was confi profoundly Whilst hearing aid When our sondeaf. Sam was weeks of age, it was clear that th only three days old his minimal. We attended the Newly deafness was picked and a meeting for parents who are up with the Newborn Screening. Samchildren, which w Implants When for their was just daysourselves under the soon weeight found old we and had her his first Viani team in the Cochlear Im Audiology appointment where it was confirmed that he was profoundly deaf. Whilst hearing aids Sam received his bilateral cochlear implants just two were fitted at five weeks of age, it was clear that there was no birthday. What a present he got! While the benefits would be minimal. We attended the switch on, he soon began to utter new sounds and react Newly Diagnosed weekend and a meeting for it was a little bit of a struggle as he would pull them off a parents who are considering Cochlear Implants them into food, buthelp heand soon began to real forthrow their children, whichhis were a huge soon we found ourselves under the excellent care of Dr. Viani and her team in the Cochlear Implant Department. Sam received his bilateral cochlear implants just two weeks after his first birthday. What a present he got! While there was no major reaction upon switch on, he soon began to utter new sounds and react to his name. At first it was a little bit of a struggle as he would pull them off and chew on them or throw them into his food, but he soon began to realise that these were making a difference to him. Six months on and the words have started to come. He now has eight words and a few ISL signs. He loves music and singing and dances along to all genres! He seems to love musicals and "Annie" seems to be his favourite at the moment! Sam will now leave the implants on all day until he is going to bed and has recently began to look for them when we take them off him at bath time etc. A whole new world has opened up for Sam and we get to share it with him every day. A huge thanks to the Cochlear Implant team. (Written in 2015) 15 The National Paediatric Cochlear Implant Programme / Helping Deaf Children to Hear and Talk Useful Websites Books, videos and CDs about deafness In the UK, there are three main manufacturers of cochlear implants: and deaf issues Cochlear www.cochlear.com Advanced Bionics www.advancedbionincs.com Medel www.medel.com Forest Books The New Building Ellwood Road Milkwall Coleford Gloucestershire GL16 7LE Tel: 00 44 1594 833858 www.forestbooks.com Other useful websites include: National Deaf Children's Society www.ndcs.org.uk British Cochlear Implant Group www.bcig.org.uk Ear Foundation, Nottingham, UK www.earfoundation.org.uk Deaf Education Through Listening and Talking www.deafeducation.org.uk DeafHear www.deafhear.ie Sound Advice www.sound-advice.ie The Elizabeth Foundation www.elizabeth-foundation.org Information for teenagers www.ci-4teenz.com Comprehensive website for current and future CI users www.cochlearimplantHELP.com 16 2015 Edition 17 The National Paediatric Cochlear Implant Programme / Helping Deaf Children to Hear and Talk The National Paediatric Cochlear Implant Programme Beaumont Hospital/Children’s University Hospital Temple Street Tel 01 809 2191 - General Enquiries & Spare Parts Tel 01 809 2013 - Paediatric Appointments 18 Fax 01 809 2753 Text tel 087 953 5423 e-mail [email protected]