The Western Cape Forum for Intellectual Disability took the South African Government to court in 2010 on its failure to implement the right to education for Children with Severe and Profound Intellectual Disability. Subsequently, multidisciplinary teams were appointed by the Western Cape Education Department to deliver services to the Special Care Centres (SCCs). Initially, minimal information was available on this population.
The purpose is to document the process of developing and validating a database for the collection of routine data.
A descriptive analytical study design was used. A sample of convenience was drawn from individuals under the age of 18 years, enrolled in SCCs in the Western Cape. The team who entered and analysed the data reached consensus regarding the utility and feasibility of each item.
Data were collected on 134 children. The omission of certain items from the database was identified. Some information was not reliable or readily available. Of the instruments identified to assess function, the classification systems were found to be reliable and useful, as were the performance scales. The WeeFIM, on the other hand, was lengthy and expensive, and was therefore discarded.
A list of items to be included was identified. Apart from an individual profile, it can be useful for service planning and monitoring, if incorporated into the central information system used to monitor the performance of all children. Without such inclusion, this most vulnerable population, despite court ruling, will not have their right to education adequately addressed.
The second United Nations (UN) Millennium Development Goals included the achievement of universal primary education (UN) by
Within the Western Cape (WC), there are estimated to be approximately 3000 children with severe or profound intellectual disability (CSPID) (Kleintjies
The various levels of severity are defined on the basis of adaptive functioning, and not IQ scores, because it is adaptive functioning that determines the level of supports required. Moreover, IQ measures are less valid in the lower end of the IQ range.
Therefore, this population of children has both intellectual and adaptive functioning deficits in the domains of conceptual, social and practical domains. In the practical domain (American Psychiatric Association
The individual requires support for all activities of daily living, including meals, dressing, bathing, and elimination. The individual requires supervision at all times. The individual cannot make responsible decisions regarding well-being of self or others.
The prevalence of sensory impairments, visual and hearing, in people with intellectual disabilities is 10 and 40–100 times greater than in the general population (Carvill
The Western Cape Forum for Intellectual Disability, on behalf of its members, took the South African Government to court on the matter of the rights of CSPID in the WC in 2007 (South African Legal Information Institute
The four CSPID teams have adopted a phased approach to the roll out of educational inclusion in the SCCs, beginning with relationship building with the centre staff, identifying the children, consulting with parents, formalising the content and scope for programme development and teaching care staff to provide educational stimulation to the children. Goals are set and prioritised for each child. Centre caregiver training is done on site, and this is practical and interactive in nature. The various team members are consulted by a representative involved in developing a national curriculum for profound intellectual disability (PID), which links with the National Curriculum Framework for children birth to four years and the curriculum for severe intellectual disability, under development.
At the commencement of the programme, there was very little information available with regard to the demographics, educational accomplishments or functional limitations of the children enrolled in the programme. As a result, there was no baseline information from which to map the progress of the children and little evidence to monitor the efficacy of the programmes. Literature review on similar projects around the globe did not render satisfactory results. Apparent inconsistencies in the definitions of disability hamper international comparison (Robson & Evans
Every typically developing child has their educational progress monitored by the national Department of Education, through the Central Education Management Information System (CEMIS). There was thus a need to develop a database appropriate for the needs of CSPID. This database should form part of systems for assessing and monitoring changes in children’s physical, social, communication and cognitive competences as well as their health, personal care and emotional well-being. Children attending these SCCs are only the tip of the iceberg of CSPID, as many children are still excluded from any form of education. However, due to the brief and logistical constraints of the multifunctional teams, this study could not include these children.
The purpose of this paper is to document the process of developing and validating a database for the collection of routine data for CSPID. This could potentially form part of CEMIS and be administered centrally. It is hoped that the documentation of this process will assist other organisations wishing to develop similar databases.
An iterative process, including group discussions, training sessions and online discussion, was utilised to reach consensus on suitable items for the database. A descriptive analytical study design was used to pilot the prototype database.
The participants included eight to ten members. To objectify the development of the database, the representatives of the four CSPID teams were joined by representatives from within the Department of Health and Rehabilitation Sciences of the University of Cape Town. The participants represented the disciplines of psychology, teaching, occupational therapy, speech and language therapy, and physiotherapy. Information gained through the initial audit of the SCCs and the subsequent findings of the original team were considered in this process.¹ The data collection form was rolled out to 12 centres in 3 of the rural districts by September 2014 to assess all children in these centres, as part of their routine management. The sample for the validation study was drawn from all individuals under the age of 18 years, who were enrolled in 10 of the 12 centres serviced by the rural team, as indicated on registers for September 2014. The exclusion of two of these centres was due to logistical constraints in service delivery at that time. As the purpose was to explore the feasibility and usefulness of the data collection form, the sample was one of convenience and not necessarily representative of all 273 individuals serviced by the rural team by September 2014. The results were then presented to the members of the small task team who reached consensus with regard to which items should be included in the definitive database.
The database items were identified through a series of consensus meetings. The multidisciplinary nature of the team contributed to the face validity of the instrument. There was considerable discussion as to which demographic and health condition items should be included, as well as items relating to medical management, provision of assistive devices and therapeutic interventions.
All members were requested to identify standardised instruments that were valid and responsive for the measurement of the different aspects of functioning of each child. The criteria for inclusion were that the instrument should be able to be used by any member of the team, that it should be robust and that it would monitor important functional and educational skills in the target population. The standardised instruments considered included, amongst others, the Gross Motor Function Measure (McDowell
The instruments that were ultimately chosen included different classification systems: the Gross Motor Function Classification System (GMFCS) (McDowell
Gross motor function classification system.
Level | General heading description |
---|---|
Level I | Walks without limitations |
Level II | Walks with limitations |
Level III | Walks using a hand-held mobility device |
Level IV | Self mobility with limitations; may use powered wheelchair |
Level V | Transported in a manual wheelchair |
Manual ability function classification system.
Level | Description |
---|---|
Level I | Handles objects easily and successfully |
Level II | Handles most objects but with somewhat reduced quality and/or speed of achievement |
Level III | Handles objects with difficulty; needs help to prepare and/or modify activities |
Level IV | Handles a limited selection of easily managed objects in adapted situations |
Level V | Does not handle objects and has severely limited ability to perform even simple actions |
Communication function classification system.
Level | Description |
---|---|
Level I | Effective sender and receiver with unfamiliar and familiar partners |
Level II | Effective but slower paced sender and/or receiver with unfamiliar and/or familiar partners |
Level III | Effective sender and receiver with familiar partners |
Level IV | Inconsistent sender and/or receiver with familiar partners |
Level V | Seldom effective sender and receiver even with familiar partners |
In addition, the WeeFIM (Ottenbacher
The performance scales (P-scales), which are the national curriculum performance attainment targets for children with special education needs in the UK, were also included (Department for Education
Extracts from P-Scale level descriptors – English.
Level | Language |
---|---|
P1(i) | Pupils encounter activities and experiences. They may show simple reflex responses, |
P1(ii) | Pupils show emerging awareness of activities and experiences. They may have periods when they appear alert and ready to focus their attention, |
P2(i) | Pupils begin to respond consistently to familiar people, events and objects. They react to new activities. They begin to show interest in people, events and objects, |
P2(ii) | Pupils begin to be proactive in their interactions. They communicate consistent preferences and affective responses, |
P3(i) | Pupils begin to communicate intentionally. They seek attention through eye contact, gesture or action. They request events or activities, |
P3(ii) | Pupils use emerging conventional communication. They greet known people and may initiate interactions and activities. They can remember learned responses over increasing periods of time and may anticipate known events. They may respond to options and choices with actions or gestures. They actively explore objects and events for more extended periods. They apply potential solutions systematically to problems. |
P4 speaking | Pupils repeat, copy and imitate between 10 and 50 single words, signs or phrases or use a repertoire of objects of reference or symbols. They use single words, signs and symbols for familiar objects and to communicate about events and feelings. |
P4 listening | Pupils demonstrate an understanding of at least 50 words, including the names of familiar objects. Pupils respond appropriately to simple requests which contain one keyword, sign or symbol in familiar situations, for example, ‘Get your coat’, ‘Stand up’ or ‘Clap your hands’. |
In addition, the existing data collection forms, which included information related to demographic, medical and need for and availability of assistive devices, were expanded to include additional information.
It is to be noted that the functional items are to be reassessed at regular intervals to monitor change in status. However, the repeated measurements were not tested as part of this pilot.
The process was started in November 2013 with the support of the WCED. Collaboration between members of the CSPID team and the University of Cape Town was initiated. Permission was obtained from the Human Research Ethics Committee of the University of Cape Town (HREC REF: 109/2016). The entire group met and agreed in principle that a database should be developed. Approximately eight meetings were held in the course of the next 12 months including two training sessions on the use of the WeeFIM and the P-scales. A smaller task team was then established to continue this work. An initial list of items was circulated to the larger group, and based on the responses a prototype database was developed and registered with the HREC of the University of Cape Town. The prototype was subjected to a feasibility study with 20 participants. Based on these results, further amendments were made, including the use of drop-down boxes to ensure standardisation of responses under each item.
All participating children had been admitted to the programme prior to the introduction of the database. They had an existing questionnaire, filled in for each child at the specific centre, with relevant data. Additional information was then added to their records. Based on information previously gathered at admission, as well as after the administration of the standardised instruments, a research assistant then collected all this data from the CSPID files, using a survey instrument application, Magpi (
Since the inception of the database, consent for including the information of the children enrolled in the CSPID programme and for auditing of procedures has been added to the admission forms. Informed consent was obtained from the parents of all enrolled children. Confidentiality was ensured by removing the names of the children and their centres from the data set prior to analysis.
Descriptive statistics were used throughout. The three therapists who had utilised the database discussed the statistical outcomes and the value of the information gained from each item until consensus was reached as to the utility and feasibility of each of these headings.
Of the 134 children recruited, 58% were male. Three quarters of the children spoke Afrikaans, and with three exceptions the others spoke isiXhosa.
Names, surnames and date of birth were 100% available at the time of the study and only one centre did not record home addresses. The mean age was 9.1 years (Standard deviation [SD] = 3.2 years, range 2.7–17.6 years; see
Results on item – grants.
Type of grant | No. of children |
---|---|
Child support | 11 |
Disability | 17 |
Foster | 10 |
Unknown | 96 |
Histogram of the ages of the children (
Data on meeting the need in terms of transport were easily accessible. All children had access to transport arranged or supplied by the SCC.
Where the diagnosis was available, it was entered into the database as written in the folder with cerebral palsy (CP), idiopathic intellectual disability and epilepsy being the most common. It was necessary to recode certain diagnoses (
Results on item – health conditions.
Variable | Count | Children (%) | Conditions (%) |
---|---|---|---|
Cerebral palsy | 58 | 43.3 | 24.3 |
Intellectual disability | 33 | 24.6 | 13.8 |
Epilepsy | 26 | 19.4 | 10.9 |
Chromosomal | 16 | 11.9 | 6.7 |
Autism spectrum disorder | 13 | 9.7 | 5.4 |
Visual impairment | 11 | 8.2 | 4.6 |
Foetal alcohol syndrome | 10 | 7.5 | 4.2 |
Microcephaly | 10 | 7.5 | 4.2 |
Hydrocephalus | 8 | 6 | 3.3 |
Hearing impairment | 7 | 5.2 | 2.9 |
Meningitis | 6 | 4.5 | 2.5 |
Attention deficit hyperactivity disorder | 5 | 3.7 | 2.1 |
Speech impairment | 5 | 3.7 | 2.1 |
Muscular-skeletal impairment | 5 | 3.7 | 2.1 |
Global developmental delay | 4 | 3 | 1.7 |
Kidney/liver disorder | 4 | 3 | 1.7 |
Congenital neurological abnormality | 3 | 2.2 | 1.3 |
Behaviour disorder | 2 | 1.5 | 0.8 |
Spina bifida | 2 | 1.5 | 0.8 |
Allergic rhinitis | 2 | 1.5 | 0.8 |
Other | 6 | 4.5 | 2.5 |
Unknown | 3 | 2.2 | 1.3 |
Total | 239 | - | 100 |
Results on item – availability of appliances.
Variable | Buggy | Wheelchair | Splint | Standing frame | Hearing aid | Spectacles |
---|---|---|---|---|---|---|
No | 90 | 124 | 127 | 134 | 134 | 132 |
Yes | 39 | 7 | 6 | 0 | 0 | 2 |
Unknown | 4 | 2 | 6 | 0 | 0 | 0 |
Need one |
1 | 1 | 1 |
The need for visual and hearing aids was not tested.
The classification systems were applied only to those children who had been diagnosed with CP (
Number of children (y-axis) scoring at the different MACS, GMFCS AND CFCS levels (x-axis).
Frequency (y-axis) of P-scale scores (x-axis) across all subject areas.
The WeeFIM was administered to 27 children, with the results of the self-care domain recorded in
WeeFIM – self-care domain.
Assistance | Bowel management | Bladder management | Toileting | Dressing lower body | Dressing upper body | Grooming | Eating |
---|---|---|---|---|---|---|---|
1 Total | 16 | 16 | 17 | 16 | 16 | 13 | 11 |
2 Maximal | 1 | 1 | 2 | 7 | 7 | 8 | 2 |
3 Moderate | 1 | 1 | - | - | - | - | 2 |
4 Minimal | 1 | 1 | - | 1 | 1 | - | 1 |
5 Supervision | - | - | 3 | 2 | 2 | 5 | 6 |
6 Modified independence | 1 | 1 | - | - | - | 1 | - |
7 Complete independence | 7 | 7 | 5 | 1 | 1 | - | 5 |
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Due to logistical constraints, not all of the 134 children were tested using all of the instruments, resulting in the missing data reported in
The three therapists involved discussed the feasibility of each item and reached consensus regarding the utility, feasibility and possibility of standardisation thereof, to ensure future reliability. Based on the results of the pilot testing, several items were altered. Items deemed not to meet the criteria of these three constructs were deleted or amended. Their conclusions and suggested amendments are listed below.
The child’s home language was indicated in the centre folder. Apart from Afrikaans and Xhosa as preferred language, the minor exceptions were French, Tsonga or Sotho.
The use of the national identification (ID) number rather than a yet-to-be-allocated CEMIS number is preferred. A unique number is necessary to ensure confidentiality, and it had been thought that a CEMIS number would be the most appropriate. Identity documentation is available in the majority of centres and accompanied by birth certificates, in most cases. Initially, it was thought that hospital numbers could assist with health-related queries. It became apparent that ID numbers would best serve as the reference number in the attempt to align databases from different government departments as well. ID numbers should be utilised as the unique identifying number, which could also be used for children not attending SCCs.
Information with regard to the age of children is extremely important and was available for all. The results identified the need for early intervention and raises questions as to why there was a sudden drop in attendance after the age of 10 years. Another useful finding was that there are several older children who are still attending the centres. Age-related information will be useful both in terms of practical planning of age-appropriate programmes and interventions, as well as for monitoring and planning of future service delivery.
It was agreed that the collection of socio-economic data was difficult to source and unreliable. It was decided to replace employment status with family structure. Similarly, Hospital Payment Scale, which did not render the desired information, was replaced with income category. The Screening Identification Assessment and Support (SIAS) document (Department of Basic Education
The health conditions were available in the folders, but the coding was unstandardised. Intellectual disability was only indicated on a number of folders, mainly those with no other condition. These children with no other diagnosis indicated in their folders are represented in
With regard to appliances, there was inconsistency between the number of children reported to have spectacles and hearing aids and the number of children reported to have visual or hearing impairments. This highlighted the need for screening of sensory impairments before judging the need of these assistive devices. The absence of an item related to Alternative, Augmented Communication was also noted, and this was added to the list of assistive devices.
The intervention that the child receives from sources other than CSPID should be entered under the headings medical, therapeutic and other stimulation activities, instead of simply medical intervention.
The classification systems, as standardised measures of gross motor, manual and communication ability, has a low administrative burden, is robust and can be used across disciplines. The functional abilities of the children have implications on how they can participate in stimulation activities. Activities need to be adjusted, to accommodate for these functional limitations. The classification systems, thus aid in the easy identification of the children in need of therapeutic intervention to optimise their participation to classroom activities.
Rather than using all the P-Scales, it was suggested that the most useful ‘subject areas’ be identified, renamed and implemented. ‘English’ were substituted with
The WeeFIM was found to be too time consuming for routine collection and excluded from the final database, although it could be useful at an individual level.
The final version of the database is presented in the
This paper has documented the development and pilot testing of a database of routinely collected data for CSPID and explored the utility of this data. Based on the results of the pilot testing, several items in the prototype database were altered. There were several lessons learned from the pilot and, as most of the information was relatively easy to access, the therapists expressed confidence in the results. However, where items, such as hospital folder numbers, parental income or socio-economic status, were not found to be available, the utility of having such an item was questioned. It was brought to the attention of the authors that access to data of the Western Cape Department of Health can be gained by the use of identity numbers or name and surname with date of birth. Referrals are made to local clinics or district-based rehabilitation services. Hospital numbers are thus not essential and in effect redundant.
During the course of data collection, it came to the attention that a rare few children had access to private medical care. This elicited a debate about whether it can be assumed that all children in this population had similar socio-economic circumstances or whether this should form part of routine data collection. The learner profile as described in the SIAS document (Department of Basic Education
Higgs, NT (Higgs
For other items, such as health condition and medication, the information was generally available although challenges remain. By default, all of the children admitted to a SCC are because of intellectual disability and it should therefore be excluded from the list of conditions. It was also considered necessary to provide more details regarding the interventions that the children received.
It became clear on analysis that such a database will collect much useful information that can inform the nature, content and extent of service delivery to CSPID and monitor the impact of such service. For instance, the pilot revealed that there were very few children under the age of 4 years attending the centres. The percentage reflected in this study is lower than the 25% of CDG beneficiaries between 0–6 years of age, found to be attending early learning facilities in the local community (Department of Social Development, DWCPD & UNICEF
The language used by staff members in the centres did not get reflected in the original data set. The language of learning and teaching is important in terms of planning service delivery. The data on home language might appear to be in contrast to the figures for the whole of the WC, but is the reality for the rural parts of the province, which were included in the study. Only one of the centres used Xhosa as the language of instruction, one centre used both Afrikaans and English and the others instructed mainly in Afrikaans. As the focus of the team is on communication and not teaching a specific language, using the home language of the child is encouraged as far as possible.
Availability of transport is of utmost importance. Most children cannot afford personal or public transport, which would result in non-attendance or a high degree of absenteeism. Unfortunately, this database underestimates the need for transport as it does not reflect the number of children not gaining access to the SCC because they reside outside the area covered by centre transport. The need in terms of transport, in reality, is thus bigger than reflected in these statistics.
For many children the reason for not attending a SCC is probably or partly due to inaccessibility of transport. The need is to expand the use of the data set for children on a waiting list at that particular centre. In doing so, it will be a start to account for children whose rights have not been met. It is beyond the logistical constraints of the multifunctional teams to venture further out into the community. In the metro areas, a non-profitable organisation (NPO) is employed by the Department of Social Development to develop home programs for children with no access to SCC’s or schools. In the rural areas, due to the vast distances involved, the authors are of the opinion that if would be more feasible to strengthen the means of the rural CSPID team, with the brief to support out of centre children as well.
The need for therapeutic expertise, across the disciplines, is indicated by the large numbers of children with CP, classified at the most severe levels of the MACS, GMFCS and the CFCS. Although initially developed specifically for use in CP (Bodkin, Robinson & Perales
The Vineland Adaptive Behavior Scales (2nd ed.) (Sparrow, Cicchetti & Balla
Conceptual skills generally involve the physical world rather than symbolic processes. The individual may use objects in goal-directed fashion for self-care, work, and recreation. Certain visuospatial skills, such as matching and sorting based on physical characteristics, may be acquired. However, co-occurring motor and sensory impairments may prevent functional use of objects.
The P-Scales were found to be very useful not only as a measure of outcome but also to assist in planning the educational support and developing appropriate activities and can also support the implementation of a curriculum. It serves as a common tool shared by educators and health-care professionals. It became clear that this was the assessment tool of choice with which to measure educational progress, particularly as elements thereof will probably be integrated into the new national curriculum for children with intellectual impairments still being developed, by a task team for the National Department of Education.
It is a low-cost high-relevance tool which can be implemented in the interim alongside the South African National Curriculum Framework (NCF) for children 0–4 years (Department of Basic Education
To align with the subject areas outlined in the NCF, the terms
The distribution of peaks, which indicates a substantial number of children are performing at a relatively high level, may be useful in identifying children who may be performing at higher levels and are thus inappropriately placed in centres for CSPID. At an individual level, the results of the P-Scales can be utilised to target specific areas of weakness. As case discussions with parents and care staff are part of routine work for CSPID, it will be possible to integrate P-Scales into this process. These guidelines thus give all those involved in the educational stimulation of the child a ‘small steps framework’ (Mittler
Regular, routine P-Scale assessments will enable charting of the learners’ progress. This information is useful to monitor progress over time, assess the effectiveness of intervention and to identify where further support is needed. At a policy level, an analysis of the differential performance on the different scales can inform curriculum development and lead to a greater understanding of the inter-relationship of the different skill categories (Qualifications and Curriculum Authority
However, the appropriate use of the scales requires training to ensure standardisation of assessment across children, team members and centres. This training should be incorporated into capacity building and professional development of CSPID team members.
The use of the WeeFIM is not recommended for the general routine assessment of CSPID. Although the WeeFIM is a standardised assessment tool, it includes the term of maximal independence. Children with profound disability will always be dependent in many areas of self-care and other activities of daily life. With the exclusion of the WeeFIM due to cost and time implications, the database had a gap in the important area of self-care assessment. The authors identified the need to develop or identify an appropriate self-care classification system for children comparative to the other classification systems. This is a matter of urgency, as developing self-care skills is an essential component in educating CSPID. It is advisable that this tool be developed within the contemporary framework of a support model (Buntinx & Schalock
The development of the database was supported by grant funding, and the collection and entry of the data onto a mobile tablet were done by a research assistant, supported by the grant. The analysis and reporting were done in collaboration with academic partners at the University of Cape Town. The process was enriching for both parties and demonstrated the value of academic and public partnerships. However, this model is not sustainable and there is a need to institutionalise the collection, storage, analysis and dissemination of reports and monitoring of the results. This would, in the light of the ruling of the High Court, appear to be a responsibility of the education authorities who have the capacity and structure within CEMIS to perform these functions. Hopefully, this initiative of the CSPID team in identifying and piloting a viable database will inform the future integration of information relating to CSPID into the system that collects and manages equivalent data for all children attending schools. This will go some way in ensuring that the educational and other needs of learners who have severe and profound cognitive impairments are adequately addressed, especially those that have not been enrolled in centres or accommodated in schools. In time, after implementation in the field, the resultant core data set has the potential to form a reference to other countries in Southern Africa, possibly even to more low- to middle-income countries.
It is clear that the development of this database represents the first steps on a long road. In the near future, the use of the database can be rolled out in all the CSPID districts, and repeated assessments of functioning at regular intervals can start. There is no doubt that the database will undergo many amendments as deficiencies and redundancies are identified with use. However, it is likely that a core set of information will be collected and over time, an overall picture of the needs and capabilities of CSPID will emerge. This information will be useful for service planning and monitoring. At an individual level, regular assessment of the performance levels of the children will give parents, therapists and care workers useful information not only with regard to current performance, strengths and challenges but also in terms of the development and emerging needs of the children. The authors maintain that if a system of data collection is instated by the educational authorities, these most vulnerable of children will become visible and their right to education, as endorsed by the court ruling, will be adequately addressed.
Appendix: Items included in the final database
Unique number
Surname
Name
Date of birth
Address
Centre
CSPID team linked to centre
Home language
Gender
Social circumstances home – family structure
Social economic status – family income category
Grant
Transport
Assistive devices – wheelchair
Buggy
Splints
Standing frame
Hearing aid
Glasses
AAC
Level of educational support
ICD11 diagnosis
Probable health condition
Co-morbid probable health condition
Aetiology
Chronic medical conditions
Outcome – what has happened to the child who left the centre
Chronic medication category
Chronic medication 1
Chronic medication 2
Medical intervention
Therapeutic intervention (non-CSPID)
Other services available at the centre, for example, horse riding
Date of assessment of classification systems (GMFCS, MACS and CFCS) (self-care)
MACS score
GMFCS score
CFCS score
Self-care classification score – feeding
Self-care classification score – drinking
Self-care classification score – dressing
Self-care classification score – tooth brushing
Self-care classification score – toileting
Self-care classification score – total
Date of assessment P-scales
P-Scale score Communication – speaking
P-Scale score Communication – listening
P-Scale score Exploring Mathematics
P-Scale score Physical Education
CSPID interventions
Date of reassessment of classification systems
MACS score
GMFCS score
CFCS score
Self-care classification score – feeding
Self-care classification score – drinking
Self-care classification score – dressing
Self-care classification score – tooth brushing
Self-care classification score – toileting
Self-care classification score – total
Date of reassessment P-Scales
P-Scale score Communication – speaking
P-Scale score Communication – listening
P-Scale score Exploring Mathematics
P-Scale score Physical Education
Thanks are extended to all members of the WCED CSPID team who participated in this process. Your dedication and commitment to the children in your care is commendable. The collaboration of parents, children and caregivers in the pilot study is also recognised. Funding from the CHEC/WCG Joint Funding is gratefully acknowledged. The contribution of Professor Roy McConkey to the conceptualisation of the database is gratefully acknowledged.
Several of the authors are employed by the WCED and thus have an interest in the introduction of an appropriate database for collecting educational information on children with severe and PID. There are no other financial or personal competing interests.
K.S. conceptualised the paper, collected data and analysed the results. L.C. was involved in data collection and management. W.v.R. conceptualized the paper and analysed the results. E.K. collected data and analysed the results. J.M. and H.V. conceptualized the paper. J.J. conceptualized the paper and analysed the results. All of the above contributed to the final draft of the paper.
This process is described in a paper by McKenzie J, Pillay N, Duvenhage CM, Du Plessis E and Jelsma J: ‘Implementation of educational provision for children with severe and profound intellectual disability in the Western Cape: From rights to reality which is in preparation’.
Report on Activities of the Provincial Teams for Children with Severe to Profound Intellectual Disabilities (CSPID), for the period April 2012 to March 2013, submitted to the WCED.
Draft Framework for Therapeutic and Stimulation Programme: Children with severe to profound intellectual disability, developed by Provincial CSPID team November 2012, submitted to WCED.
Department of Basic Education (