Assessment of conductive education for children and adolescents with brain damage: a health technology assessment

Elvsaas IKØ, Lund UH, Giske L, Stoinska-Schneider A, Fure B.
Record ID 32018000793
English, Norwegian
Original Title: Vurdering av Petø-metoden for barn og unge med hjerneskade
Authors' objectives: In this health technology assessment, we have systematically summarized and quality-assessed available research on clinical effects and adverse events associated with conductive education for children and adolescents with brain damage. We also performed a health-economic analysis that catalogues treatment costs.
Authors' results and conclusions: Clinical efficacy and safety: Nine studies, with 11 publications, and 293 participants, fulfilled the inclusion criteria and were included. Of these, three were randomized controlled studies, and six were controlled studies without randomization. All studies included children with cerebral palsy. The studies were conducted in Norway, Sweden, United Kingdom, Australia, the United States and Iran. Only two studies were conducted during the past 10 years. We found no statistical difference between conductive education and control groups in gross motor function, fine motor function, cognitive function, quality of life, activities of daily life, communication and language, behaviour, social functioning, and parent’s mental health and quality of life. We did not find studies that examined mental health and stress in children, children's school skills, family functioning and stress, quality of life for siblings, or parents' occupational participation. None of the studies systematically reported adverse events, but one study noted that no adverse events occurred in the conductive education or the control group. The Risk of Bias assessment showed that seven out of nine studies had a high risk of bias. The certainty to the overall documentation was judged to be low to very low using the GRADE tool. Health Economics: The PTØ centers in the South-Eastern, Western and Central Norwegian health districts, had 147 participants between 0-18 years in 2015. In addition, 22 children attend the conductive education program in Northern Norwegian health district in 2015. Based on 2015 costs in the South-Eastern, Western and Central Norwegian health districts, the estimated average cost per participant with family was 87,339 Norwegian kroner (12,838,840 Norwegian kroner / 147 participants). In the Northern Norwegian health district, the average cost per participant with family was 23,297 Norwegian kroner (512,527 Norwegian kroner / 22 participants). The estimated average cost per participant with family was 79,002 Norwegian kroner (13,351,367 Norwegian kroner / 169 participants), across all health regions. Conclusion: We found no statistical differences in efficacy between conductive education and other forms of training for children with brain damage on gross motor function, fine motor function, cognitive function or quality of life, and the certainty to the documentation was low to very low. For 2015, the total cost of the conductive education programs was 13,351,367 Norwegian kroner. The average cost per participant with family for an average of two treatment periods with a duration of three to five hours per day for one to three weeks was 79,002 Norwegian kroner.
Authors' methods: Clinical efficacy and safety: We conducted systematic literature searches in the CINAHL, Cochrane library, Ovid, Epistemonicos, PEDro and SveMed databases through October 2016. Two researchers assessed the search results independently. We read relevant publications in full text and included publications that met our inclusion criteria. We assessed study bias using the Risk of Bias tool. The main outcomes were gross motor function, fine motor function, cognitive function, quality of life, mental health and stress, as well as adverse events. Secondary outcomes were activities of daily life, communication and language, behaviour, social participation and skills, and school skills. Secondary outcomes also included outcomes related to the family, such as family functioning, stress, parents’ mental health and quality of life, quality of life of siblings, and parents' occupational participation. We compiled data using the Review Manager 5.03 software, and calculated standardized mean differences between groups and 95% confidence intervals. We assessed the quality of the effect estimates using Grading of Recommendations Assessment, Development and Evaluation (GRADE). Health Economics Analysis: We have described costs related to the conductive education program. The total cost of the conductive education program consists of costs related to the program as implemented in Norway, and travel and in-patient and/or hotel stays associated with treatment. In order to obtain the most realistic description of the costs, we have based our calculations on actual processes of the programs. All costs are expressed in Norwegian kroner, and we present an estimate of average cost per participant with family. We have described costs from a health service perspective, with a time horizon of one year. A health service perspective includes costs that are paid from the Norwegian health service’s budget.
Details
Project Status: Completed
Year Published: 2017
English language abstract: An English language summary is available
Publication Type: Full HTA
Country: Norway
MeSH Terms
  • Developmental Disabilities
  • Disabled Children
  • Exercise Therapy
  • Program Evaluation
  • Rehabilitation
  • Adolescent
  • Brain Injuries
  • Child
  • Child, Preschool
  • Norway
  • Young Adult
  • Costs and Cost Analysis
  • Health Care Costs
Keywords
  • Conductive Education
Contact
Organisation Name: Norwegian Institute of Public Health
Contact Address: P.O. Box 222 Skoyen, N-0123, Oslo
This is a bibliographic record of a published health technology assessment from a member of INAHTA or other HTA producer. No evaluation of the quality of this assessment has been made for the HTA database.