Sensory Processing, Functional Performance and Quality of Life in Unilateral Cerebral Palsy Children: A Cross-Sectional Study
Abstract
:1. Introduction
2. Materials and Methods
2.1. Study Design
2.2. Participants and Procedures
2.3. Variables and Data Measurements
2.3.1. Child Sensory Profile 2 (CSP-2), Spanish Version
2.3.2. Pediatric Evaluation of Disability Inventory—Computer Adaptive Test (PEDI-CAT)
2.3.3. Kidscreen Questionnaire, Spanish Version
2.4. Sample Size
2.5. Statistical Methods
3. Results
3.1. Characteristics of the Sample
3.2. Differences in Sensory Processing, Functional Performance and HRQoL between Groups
3.3. Correlations between Sensory Processing and Funcional Performance
3.4. Correlations between Sensory Processing and HRQoL
4. Discussion
4.1. Sensory Processing, Functional Performance and QoL
4.2. Correlations between Sensory Processing and Functional Performance
4.3. Correlations between Sensory Processing and HRQoL
5. Conclusions
Supplementary Materials
Author Contributions
Funding
Acknowledgments
Conflicts of Interest
References
- Stanley, F.J.; Blair, E.; Alberman, E. Cerebral Palsies: Epidemiology and Causal Pathways; Cambridge University Press: Cambridge, UK, 2000. [Google Scholar]
- Cioni, G.; Sales, B.; Paolicelli, P.B.; Petacchi, E.; Scusa, M.F.; Canapicchi, R. MRI and clinical characteristics of children with hemiplegic cerebral palsy. Neuropediatrics 1999, 30, 249–255. [Google Scholar] [CrossRef] [PubMed]
- Rosenbaum, P.; Paneth, N.; Leviton, A.; Goldstein, M.; Bax, M.; Damiano, D.; Dan, B.; Jacobsson, B. A report: The definition and classification of cerebral palsy April 2006. Dev. Med. Child Neurol. Suppl. 2007, 109, 8–14. [Google Scholar] [PubMed]
- Sakzewski, L.; Ziviani, J.; Boyd, R.N. Efficacy of upper limb therapies for unilateral cerebral palsy: A meta-analysis. Pediatrics 2014, 133, e175–e204. [Google Scholar] [CrossRef] [PubMed] [Green Version]
- Fedrizzi, E.; Pagliano, E.; Andreucci, E.; Oleari, G. Hand function in children with hemiplegic cerebral palsy: Prospective follow-up and functional outcome in adolescence. Dev. Med. Child Neurol. 2003, 45, 85–91. [Google Scholar] [CrossRef] [PubMed]
- World Health Organization. International Classification of Functioning, Disability, and Health: Children & Youth Version: ICF-CY; World Health Organization: Geneva, Switzerland, 2007. [Google Scholar]
- Klingels, K.; Jaspers, E.; Van de Winckel, A.; De Cock, P.; Molenaers, G.; Feys, H. A systematic review of arm activity measures for children with hemiplegic cerebral palsy. Clin. Rehabil. 2010, 24, 887–900. [Google Scholar] [CrossRef]
- Gilmore, R.; Sakzewski, L.; Boyd, R. Upper limb activity measures for 5- to 16-year-old children with congenital hemiplegia: A systematic review. Dev. Med. Child Neurol. 2010, 52, 14–21. [Google Scholar] [CrossRef]
- Lemmens, R.J.; Timmermans, A.A.; Janssen-Potten, Y.J.; Smeets, R.J.; Seelen, H.A. Valid and reliable instruments for arm-hand assessment at ICF activity level in persons with hemiplegia: A systematic review. BMC Neurol. 2012, 12, 21. [Google Scholar] [CrossRef] [Green Version]
- Morris, C.; Kurinczuk, J.J.; Fitzpatrick, R. Child or family assessed measures of activity performance and participation for children with cerebral palsy: A structured review. Child Care Health Dev. 2005, 31, 397–407. [Google Scholar] [CrossRef]
- Smits, D.W.; Gorter, J.W.; Ketelaar, M.; Van Schie, P.E.; Dallmeijer, A.J.; Lindeman, E.; Jongmans, M.J.J.D.M.; Neurology, C. Relationship between gross motor capacity and daily-life mobility in children with cerebral palsy. Dev. Med. Child. Neurol. 2010, 52, e60–e66. [Google Scholar] [CrossRef]
- Van Zelst, B.; Miller, M.D.; Russo, R.N.; Murchland, S.; Crotty, M.J.D.M.; Neurology, C. Activities of daily living in children with hemiplegic cerebral palsy: A cross-sectional evaluation using the assessment of motor and process skills. Dev. Med. Child. Neurol. 2006, 48, 723–727. [Google Scholar] [CrossRef]
- Papadelis, C.; Ahtam, B.; Nazarova, M.; Nimec, D.; Snyder, B.; Grant, P.E.; Okada, Y. Cortical somatosensory reorganization in children with spastic cerebral palsy: A multimodal neuroimaging study. Front. Hum. Neurosci. 2014, 8, 725. [Google Scholar] [CrossRef] [PubMed]
- Dunn, W.; Daniels, D.B.D. Initial development of the infant/toddler sensory profile. OTJR Occup. Particip. Health 2002, 25, 27–41. [Google Scholar] [CrossRef]
- Blanche, E.I.; Botticelli, T.M.; Hallway, M.K. Combining Neuro-Developmental Treatment and Sensory Integration Principles: An Approach to Pediatric Therapy; Therapy Skill Builders: San Francisco, CA, USA, 1995. [Google Scholar]
- Tsao, H.; Pannek, K.; Fiori, S.; Boyd, R.N.; Rose, S. Reduced integrity of sensorimotor projections traversing the posterior limb of the internal capsule in children with congenital hemiparesis. Res. Dev. Disabil. 2014, 35, 250–260. [Google Scholar] [CrossRef] [PubMed]
- Kuo, H.-C.; Gordon, A.M.; Henrionnet, A.; Hautfenne, S.; Friel, K.M.; Bleyenheuft, Y. The effects of intensive bimanual training with and without tactile training on tactile function in children with unilateral spastic cerebral palsy: A pilot study. Res. Dev. Disab. 2016, 49, 129–139. [Google Scholar] [CrossRef] [PubMed] [Green Version]
- Humphry, R. Young Children’s occupations: Explicating the dynamics of developmental processes. Am. J. Occup. Ther. 2002, 56, 171–179. [Google Scholar] [CrossRef] [Green Version]
- Dunn, W.; Little, L.; Dean, E.; Robertson, S.; Evans, B. The State of the science on sensory factors and their impact on daily life for children: A scoping review. OTJR Occup. Particip. Health 2016, 36, 3S–26S. [Google Scholar] [CrossRef]
- Dunn, W. Sensory Profile–2 User’s Manual; Pearson: London, UK, 2014. [Google Scholar]
- Dean, E.E.; Little, L.; Tomchek, S.; Dunn, W. Sensory processing in the general population: Adaptability, resiliency, and challenging behavior. Am. J. Occup. Ther. 2018, 72, 7201195060p1–7201195060p8. [Google Scholar] [CrossRef]
- Little, L.M.; Ausderau, K.; Sideris, J.; Baranek, G.T. Activity participation and sensory features among children with autism spectrum disorders. J. Autism Dev. Disord. 2015, 45, 2981–2990. [Google Scholar] [CrossRef]
- Little, L.M.; Dean, E.; Tomchek, S.D.; Dunn, W. Classifying sensory profiles of children in the general population. Child Care Health Dev. 2017, 43, 81–88. [Google Scholar] [CrossRef]
- Pavão, S.L.; Rocha, N.A.C.F. Sensory processing disorders in children with cerebral palsy. Infant Behav. Dev. 2017, 46, 1–6. [Google Scholar] [CrossRef]
- Blanche, E.; Nakasuji, B. Understanding the Nature of Sensory Integration with Diverse Populations; Pro-Ed: Austin, TX, USA, 2001; Volume 1, pp. 345–364. [Google Scholar]
- Livingston, M.H.; Rosenbaum, P.L.; Russell, D.J.; Palisano, R.J. Quality of life among adolescents with cerebral palsy: What does the literature tell us? Dev. Med. Child Neurol. 2007, 49, 225–231. [Google Scholar] [CrossRef] [PubMed]
- Russo, R.N.; Goodwin, E.J.; Miller, M.D.; Haan, E.A.; Connell, T.M.; Crotty, M. Self-esteem, self-concept, and quality of life in children with hemiplegic cerebral palsy. J. Pediatr. 2008, 153, 473–477. [Google Scholar] [CrossRef]
- Caspar-Teuscher, M.; Studer, M.; Regenyi, M.; Steinlin, M.; Grunt, S.; Swiss Neuropediatric Stroke Registry Group. Health related quality of life and manual ability 5 years after neonatal ischemic stroke. Eur. J. Paediatr. Neurol. 2019, 23, 716–722. [Google Scholar] [CrossRef] [PubMed]
- Natalucci, G.; Bucher, H.U.; Von Rhein, M.; Tolsa, C.B.; Latal, B.; Adams, M. Population based report on health related quality of life in adolescents born very preterm. Early Hum. Dev. 2017, 104, 7–12. [Google Scholar] [CrossRef] [PubMed]
- Dickinson, H.O.; Parkinson, K.N.; Ravens-Sieberer, U.; Schirripa, G.; Thyen, U.; Arnaud, C.; Beckung, E.; Fauconnier, J.; McManus, V.; Michelsen, S.I. Self-reported quality of life of 8–12-year-old children with cerebral palsy: A cross-sectional European study. Lancet 2007, 369, 2171–2178. [Google Scholar] [CrossRef]
- Arnaud, C.; White-Koning, M.; Michelsen, S.I.; Parkes, J.; Parkinson, K.; Thyen, U.; Beckung, E.; Dickinson, H.O.; Fauconnier, J.; Marcelli, M.; et al. Parent-reported quality of life of children with cerebral palsy in Europe. Pediatrics 2008, 121, 54–64. [Google Scholar] [CrossRef] [Green Version]
- Von Elm, E.; Altman, D.G.; Egger, M.; Pocock, S.J.; Gotzsche, P.C.; Vandenbroucke, J.P.; Initiative, S. The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) Statement: Guidelines for reporting observational studies. Int. J. Surg. 2014, 12, 1495–1499. [Google Scholar] [CrossRef] [Green Version]
- World Medical Association (WMA). WMA Declaration of Helsinki—Ethical Principles for Medical Research Involving Human Subjects; World Medical Association: Ferney-Voltaire, France, 2017. [Google Scholar]
- Eliasson, A.C.; Krumlinde-Sundholm, L.; Rosblad, B.; Beckung, E.; Arner, M.; Ohrvall, A.M.; Rosenbaum, P. The Manual Ability Classification System (MACS) for children with cerebral palsy: Scale development and evidence of validity and reliability. Dev. Med. Child Neurol. 2006, 48, 549–554. [Google Scholar] [CrossRef]
- Palisano, R.; Rosenbaum, P.; Walter, S.; Russell, D.; Wood, E.; Galuppi, B. Development and reliability of a system to classify gross motor function in children with cerebral palsy. Dev. Med. Child Neurol. 1997, 39, 214–223. [Google Scholar] [CrossRef]
- Dean, E.; Dunn, W. Reliability and validity of the child sensory profile 2 Spanish translation. Am. J. Occup. Ther. 2018, 72, 7011500075p1. [Google Scholar] [CrossRef]
- Haley, S.C.; Costel, W.J.; Dumas, H.M.; Fragala-Pinkham, M.A.; Moed, R.; Kramer, J.; Ni, P.; Feng, T.; Kao, Y.-C.; Ludlow, L.H. PEDI-CAT Version 1.3.6.: Development, Standardization and Administration Manual; Trustees of Boston University: Boston, MA, USA, 2012. [Google Scholar]
- Thompson, S.V.; Cech, D.J.; Cahill, S.M.; Krzak, J.J. Linking the Pediatric Evaluation of Disability Inventory-Computer Adaptive Test (PEDI-CAT) to the International Classification of Function. Pediatric Phys. Ther. 2018, 30, 113–118. [Google Scholar] [CrossRef] [PubMed]
- Dumas, H.M.; Fragala-Pinkham, M.A. Concurrent validity and reliability of the pediatric evaluation of disability inventory-computer adaptive test mobility domain. Pediatric Phys. Ther. 2012, 24, 171–176; discussion 176. [Google Scholar] [CrossRef] [PubMed]
- Dumas, H.M.; Fragala-Pinkham, M.A.; Rosen, E.L.; Lombard, K.A.; Farrell, C. Pediatric Evaluation of Disability Inventory Computer Adaptive Test (PEDI-CAT) and Alberta Infant Motor Scale (AIMS): Validity and responsiveness. Phys. Ther. 2015, 95, 1559–1568. [Google Scholar] [CrossRef] [PubMed]
- Shore, B.J.; Allar, B.G.; Miller, P.E.; Matheney, T.H.; Snyder, B.D.; Fragala-Pinkham, M.A. Evaluating the discriminant validity of the pediatric evaluation of disability inventory: Computer adaptive test in children with cerebral palsy. Phys. Ther. 2017, 97, 669–676. [Google Scholar] [CrossRef]
- Shore, B.J.; Allar, B.G.; Miller, P.E.; Matheney, T.H.; Snyder, B.D.; Fragala-Pinkham, M. Measuring the reliability and construct validity of the Pediatric Evaluation of Disability Inventory–Computer Adaptive Test (PEDI-CAT) in children with cerebral palsy. Arch. Rhys. Med. Rehabil. 2019, 100, 45–51. [Google Scholar] [CrossRef]
- Ravens-Sieberer, U.; Gosch, A.; Erhart, M.; Rueden, U.; Nickel, J.; Kurth, B.-M.; Duer, W.; Fuerth, K.; Czemy, L.; Auquier, P. The KIDSCREEN Questionnaires—Quality of Life Questionnaires for Children and Adolescents—Handbook; Pabst Science Publisher: Lengerich, Germany, 2006. [Google Scholar]
- Ravens-Sieberer, U.; Herdman, M.; Devine, J.; Otto, C.; Bullinger, M.; Rose, M.; Klasen, F. The European KIDSCREEN approach to measure quality of life and well-being in children: Development, current application, and future advances. Qual. Life Res. 2014, 23, 791–803. [Google Scholar] [CrossRef] [Green Version]
- Kornfeld, S.; Studer, M.; Winkelbeiner, S.; Regenyi, M.; Boltshauser, E.; Steinlin, M.; Swiss Neuropediatric Stroke Group. Quality of life after paediatric ischaemic stroke. Dev. Med. Child Neurol. 2017, 59, 45–51. [Google Scholar] [CrossRef]
- Erhart, M.; Ravens-Sieberer, U.; Dickinson, H.O.; Colver, A.; European, S.; Groups, K. Rasch measurement properties of the KIDSCREEN quality of life instrument in children with cerebral palsy and differential item functioning between children with and without cerebral palsy. Value Health 2009, 12, 782–792. [Google Scholar] [CrossRef] [Green Version]
- Davis, E.; Shelly, A.; Waters, E.; Davern, M. Measuring the quality of life of children with cerebral palsy: Comparing the conceptual differences and psychometric properties of three instruments. Dev. Med. Child Neurol. 2010, 52, 174–180. [Google Scholar] [CrossRef]
- Fritz, C.O.; Morris, P.E.; Richler, J.J. Effect size estimates: Current use, calculations, and interpretation. J. Exp. Psychol. 2012, 141, 2–18. [Google Scholar] [CrossRef] [Green Version]
- Hopkins, W.G.; Marshall, S.W.; Batterham, A.M.; Hanin, J. Progressive statistics for studies in sports medicine and exercise science. Med. Sci. Sports Exerc. 2009, 41, 3–13. [Google Scholar] [CrossRef] [PubMed] [Green Version]
- Soomro, N.; Kamran, B.; Bibi, R.; Ahmed, S.I. Recognizing the sensory abilities in cerebral palsy children. J. Dow Univ. Health Sci. Karachi 2011, 5, 60–65. [Google Scholar]
- Pavão, S.L.; Silva, F.P.; Savelsbergh, G.J.; Rocha, F. Use of sensory information during postural control in children with cerebral palsy: Systematic review. J. Mot. Behav. 2015, 47, 291–301. [Google Scholar] [CrossRef] [PubMed]
- Prakash, A.; Jerome, A.; Vaishampayan, A. A preliminary study of the sensory processing abilities of children with cerebral palsy and typical children on the sensory profile. Indian J. Occup. Ther. 2007, 39, 27–34. [Google Scholar]
- Park, M.-O. The relationship between sensory processing abilities and gross and fine motor capabilities of children with cerebral palsy. Korean Soc. Phys. Med. 2017, 12, 67–74. [Google Scholar] [CrossRef]
- Auld, M.L.; Boyd, R.; Moseley, G.L.; Ware, R.; Johnston, L.M. Tactile function in children with unilateral cerebral palsy compared to typically developing children. Disabil. Rehabil. 2012, 34, 1488–1494. [Google Scholar] [CrossRef]
- Østensjø, S.; Carlberg, E.B.; Vøllestad, N.K. Everyday functioning in young children with cerebral palsy: Functional skills, caregiver assistance, and modifications of the environment. Dev. Med. Child Neurol. 2003, 45, 603–612. [Google Scholar] [CrossRef]
- Mc Manus, V.; Corcoran, P.; Perry, I.J. Participation in everyday activities and quality of life in pre-teenage children living with cerebral palsy in South West Ireland. BMC Pediatr. 2008, 8, 50. [Google Scholar] [CrossRef] [Green Version]
- Michelsen, S.I.; Flachs, E.M.; Uldall, P.; Eriksen, E.L.; McManus, V.; Parkes, J.; Parkinson, K.N.; Thyen, U.; Arnaud, C.; Beckung, E. Frequency of participation of 8–12-year-old children with cerebral palsy: A multi-centre cross-sectional European study. Eur. J. Paediatr. Neurol. 2009, 13, 165–177. [Google Scholar] [CrossRef]
- Shelly, A.; Davis, E.; Waters, E.; Mackinnon, A.; Reddihough, D.; Boyd, R.; Reid, S.; Graham, H.K. The relationship between quality of life and functioning for children with cerebral palsy. Dev. Med. Child Neurol. 2008, 50, 199–203. [Google Scholar] [CrossRef]
- Albrecht, G.L.; Devlieger, P.J. The disability paradox: High quality of life against all odds. Soc. Sci. Med. 1999, 48, 977–988. [Google Scholar] [CrossRef]
- Young, B.; Rice, H.; Dixon-Woods, M.; Colver, A.F.; Parkinson, K.N. A qualitative study of the health-related quality of life of disabled children. Dev. Med. Child Neurol. 2007, 49, 660–665. [Google Scholar] [CrossRef] [PubMed]
- Alsem, M.W.; Ketelaar, M.; Verhoef, M. The course of health-related quality of life of preschool children with cerebral palsy. Disabil. Rehabil. 2013, 35, 686–693. [Google Scholar] [CrossRef] [PubMed]
- Baranek, G.T.; Chin, Y.H.; Hess, L.M.; Yankee, J.G.; Hatton, D.D.; Hooper, S.R. Sensory processing correlates of occupational performance in children with fragile X syndrome: Preliminary findings. Am. J. Occup. Ther. 2002, 56, 538–546. [Google Scholar] [CrossRef] [Green Version]
- White, B.P.; Mulligan, S.; Merrill, K.; Wright, J. An examination of the relationships between motor and process skills and scores on the sensory profile. Am. J. Occup. Ther. 2007, 61, 154–160. [Google Scholar] [CrossRef] [Green Version]
- Hagert, E. Proprioception of the wrist joint: A review of current concepts and possible implications on the rehabilitation of the wrist. J. Hand Ther. 2010, 23, 2–17. [Google Scholar] [CrossRef]
- Auld, M.L.; Boyd, R.N.; Moseley, G.L.; Ware, R.S.; Johnston, L.M. Impact of tactile dysfunction on upper-limb motor performance in children with unilateral cerebral palsy. Arch. Phys. Med. Rehabil. 2012, 93, 696–702. [Google Scholar] [CrossRef]
- Gordon, A.M.; Duff, S.V. Fingertip forces during object manipulation in children with hemiplegic cerebral palsy. I: Anticipatory scaling. Dev. Med. Child Neurol. 1999, 41, 166–175. [Google Scholar] [CrossRef]
- Gordon, A.M.; Duff, S.V. Relation between clinical measures and fine manipulative control in children with hemiplegic cerebral palsy. Dev. Med. Child Neurol. 1999, 41, 586–591. [Google Scholar] [CrossRef]
- Kinnucan, E.; Van Heest, A.; Tomhave, W. Correlation of motor function and stereognosis impairment in upper limb cerebral palsy. J. Hand Surg. Am. 2010, 35, 1317–1322. [Google Scholar] [CrossRef]
- Klingels, K.; Demeyere, I.; Jaspers, E.; De Cock, P.; Molenaers, G.; Boyd, R.; Feys, H. Upper limb impairments and their impact on activity measures in children with unilateral cerebral palsy. Eur. J. Paediatr. Neurol. 2012, 16, 475–484. [Google Scholar] [CrossRef]
- Krumlinde-Sundholm, L.; Eliasson, A.C. Comparing tests of tactile sensibility: Aspects relevant to testing children with spastic hemiplegia. Dev. Med. Child Neurol. 2002, 44, 604–612. [Google Scholar] [CrossRef]
- Sakzewski, L.; Ziviani, J.; Boyd, R.; Neurology, C. The relationship between unimanual capacity and bimanual performance in children with congenital hemiplegia. Dev. Med. Child Neurol. 2010, 52, 811–816. [Google Scholar] [CrossRef] [PubMed]
- Dunn, W. The impact of sensory processing abilities on the daily lives of young children and their families: A conceptual model. Infants Young Child. 1997, 9, 23–35. [Google Scholar] [CrossRef]
- Adams, J.N.; Feldman, H.M.; Huffman, L.C.; Loe, I.M. Sensory processing in preterm preschoolers and its association with executive function. Early Hum. Dev. 2015, 91, 227–233. [Google Scholar] [CrossRef] [PubMed] [Green Version]
- Hahn, N.; Foxe, J.J.; Molholm, S. Impairments of multisensory integration and cross-sensory learning as pathways to dyslexia. Neurosci. Biobehav. Rev. 2014, 47, 384–392. [Google Scholar] [CrossRef] [PubMed] [Green Version]
- Mailloux, Z.; Mulligan, S.; Roley, S.S.; Blanche, E.; Cermak, S.; Coleman, G.G.; Bodison, S.; Lane, C.J. Verification and clarification of patterns of sensory integrative dysfunction. Am. J. Occup. Ther. 2011, 65, 143–151. [Google Scholar] [CrossRef] [PubMed] [Green Version]
Characteristics | TD n (24) | UCP n (29) | p Value |
---|---|---|---|
Age, mean (SD) IQR | 9.60 (2.30) [7.36–11.45] | 9.44 (2.64) [6.83–10.11] | 0.815 1 |
Gender, n (%) | |||
Female | 10 (41.7) | 18 (62.1) | 0.139 2 |
Male | 14 (58.3) | 11 (37.9) | |
Hand dominance, n (%) | |||
Right | 22 (91.7) | 13 (44.8) | 0.000 2 |
Left | 2 (8.3) | 16 (55.2) |
Variables | TD | UCP | ||
---|---|---|---|---|
Mean (SD) | Mean (SD) | p Value | ES | |
CSP-2 Categories | n (24) | n (29) | ||
Seeking | 1.88 (0.54) | 1.83 (0.55) | 0.76 1 | 0.08 † |
Avoidance | 1.72 (0.54) | 2.09 (0.61) | 0.02 2 | 0.32 ‡ |
Sensitivity | 1.50 (0.30) | 1.84 (0.65) | 0.09 2 | 0.23 ‡ |
Registration | 1.40 (0.54) | 2.02 (0.71) | 0.00 2 | 0.52 ‡ |
Auditory | 2.02 (0.70) | 2.46 (0.97) | 0.14 2 | 0.20 ‡ |
Visual | 2.13 (0.62) | 2.08 (0.66) | 0.80 1 | 0.07 † |
Touch | 1.28 (0.34) | 1.39 (0.52) | 0.39 2 | 0.12 ‡ |
Movement | 1.87 (0.49) | 2.05 (0.66) | 0.29 2 | 0.15 ‡ |
Body Position | 1.23 (0.34) | 2.23 (0.93) | 0.00 2 | 0.61 ‡ |
Oral | 1.46 (0.44) | 1.93 (0.81) | 0.02 2 | 0.32 ‡ |
Behavioral | 1.63 (0.55) | 1.72 (0.57) | 0.61 2 | 0.07 ‡ |
Social-Emotional | 1.69 (0.60) | 2.15 (0.80) | 0.01 2 | 0.33 ‡ |
Attentional | 1.71 (0.75) | 1.98 (0.84) | 0.16 2 | 0.19 ‡ |
PEDI-CAT Domains | n (23) | n (26) | ||
Daily Activities | 54.22 (10.14) | 29.23 (12.25) | 0.00 1 | 2.21 † |
Mobility | 56.87 (10.61) | 30.65 (16.50) | 0.00 2 | 0.70 ‡ |
Social/Cognitive | 51.65 (8.26) | 45.15 (12.59) | 0.04 1 | 0.60 † |
Responsibility | 50.30 (9.55) | 47.08 (13.97) | 0.29 2 | 0.15 ‡ |
KIDSCREEN-27 | n (16) | n (20) | ||
Physical Well-Being | 53.38 (9.60) | 43.40 (9.34) | 0.00 1 | 1.06 † |
Psychological Well-Being | 50.01 (7.13) | 51.33 (9.16) | 0.64 1 | 0.16 † |
Parents and Autonomy | 50.06 (5.36) | 55.26 (10.01) | 0.10 2 | 0.28 ‡ |
Social Support and Peers | 55.36 (6.58) | 55.86 (9.35) | 0.86 1 | 0.06 † |
School Environment | 52.87 (7.32) | 56.91 (7.73) | 0.12 1 | 0.53 † |
KIDSCREEN-10 | ||||
General HRQoL index | 55.09 (9.11) | 50.84 (6.96) | 0.26 2 | 0.19 ‡ |
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
Share and Cite
Jovellar-Isiegas, P.; Resa Collados, I.; Jaén-Carrillo, D.; Roche-Seruendo, L.E.; Cuesta García, C. Sensory Processing, Functional Performance and Quality of Life in Unilateral Cerebral Palsy Children: A Cross-Sectional Study. Int. J. Environ. Res. Public Health 2020, 17, 7116. https://doi.org/10.3390/ijerph17197116
Jovellar-Isiegas P, Resa Collados I, Jaén-Carrillo D, Roche-Seruendo LE, Cuesta García C. Sensory Processing, Functional Performance and Quality of Life in Unilateral Cerebral Palsy Children: A Cross-Sectional Study. International Journal of Environmental Research and Public Health. 2020; 17(19):7116. https://doi.org/10.3390/ijerph17197116
Chicago/Turabian StyleJovellar-Isiegas, Patricia, Inés Resa Collados, Diego Jaén-Carrillo, Luis Enrique Roche-Seruendo, and César Cuesta García. 2020. "Sensory Processing, Functional Performance and Quality of Life in Unilateral Cerebral Palsy Children: A Cross-Sectional Study" International Journal of Environmental Research and Public Health 17, no. 19: 7116. https://doi.org/10.3390/ijerph17197116
APA StyleJovellar-Isiegas, P., Resa Collados, I., Jaén-Carrillo, D., Roche-Seruendo, L. E., & Cuesta García, C. (2020). Sensory Processing, Functional Performance and Quality of Life in Unilateral Cerebral Palsy Children: A Cross-Sectional Study. International Journal of Environmental Research and Public Health, 17(19), 7116. https://doi.org/10.3390/ijerph17197116