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BMC Pediatrics

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Open Access 01-12-2018 | Study protocol

iMOVE: Intensive Mobility training with Variability and Error compared to conventional rehabilitation for young children with cerebral palsy: the protocol for a single blind randomized controlled trial

Authors: Laura A. Prosser, Samuel R. Pierce, Timothy R. Dillingham, Judy C. Bernbaum, Abbas F. Jawad

Published in: BMC Pediatrics | Issue 1/2018

Abstract

Background

Cerebral palsy (CP) is the most common cause of physical disability in children. The best opportunity to maximize lifelong independence is early in motor development when there is the most potential for neuroplastic change, but how best to optimize motor ability during this narrow window remains unknown. We have systematically developed and pilot-tested a novel intervention that incorporates overlapping principles of neurorehabilitation and infant motor learning in a context that promotes upright mobility skill and postural control development. The treatment, called iMOVE therapy, was designed to allow young children with CP to self-initiate motor learning experiences similar to their typically developing peers. This manuscript describes the protocol for a subsequent clinical trial to test the efficacy of iMOVE therapy compared to conventional therapy on gross motor development and other secondary outcomes in young children with CP.

Methods

The study is a single-blind randomized controlled trial. Forty-two participants with CP or suspected CP between the ages of 1–3 years will be randomized to receive either the iMOVE or conventional therapy group. Distinguishing characteristics of each group are detailed. Repeated measures of gross motor function will be collected throughout the 12–24 week intervention phase and at three follow-up points over one year post therapy. Secondary outcomes include measures of postural control, physical activity, participation and caregiver satisfaction.

Discussion

This clinical trial will add to a small, but growing, body of literature on early interventions to optimize the development of motor control in young children with CP. The information learned will inform clinical practice of early treatment strategies and may contribute to improving the trajectory of motor development and reducing lifelong physical disability in individuals with CP.

Trial registration

ClinicalTrials.gov identifier NCT02340026. Registered January 16, 2015.

Available only for authorised users

Pakula AT, Van Naarden Braun K, Yeargin-Allsopp M. Cerebral palsy: classification and epidemiology. Phys Med Rehabil Clin N Am. 2009;20(3):425–52.CrossRef

Colver A, Fairhurst C, Pharoah PO. Cerebral palsy. Lancet. 2014;383(9924):1240–9.CrossRef

Kirby RS, Wingate MS, Van Naarden Braun K, Doernberg NS, Arneson CL, Benedict RE, et al. Prevalence and functioning of children with cerebral palsy in four areas of the United States in 2006: a report from the autism and developmental disabilities monitoring network. Res Dev Disabil. 2011;32(2):462–9.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(4):214–23.CrossRef

Chiarello LA, Huntington A, Bundy A. A comparison of motor behaviors, interaction, and playfulness during mother-child and father-child play with children with motor delay. Phys Occup Ther Pediatr. 2006;26(1–2):129–51.CrossRef

Palisano RJ, Kang LJ, Chiarello LA, Orlin M, Oeffinger D, Maggs J. Social and community participation of children and youth with cerebral palsy is associated with age and gross motor function classification. Phys Ther. 2009;89(12):1304–14.CrossRef

Mc Manus V, Corcoran P, Perry IJ. 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.CrossRef

Donkervoort M, Roebroeck M, Wiegerink D, van der Heijden-Maessen H, Stam H. Determinants of functioning of adolescents and young adults with cerebral palsy. Disabil Rehabil. 2007;29(6):453–63.CrossRef

Michelsen SI, Uldall P, Hansen T, Madsen M. Social integration of adults with cerebral palsy. Dev Med Child Neurol. 2006;48(8):643–9.CrossRef

10.

Beckung E, Carlsson G, Carlsdotter S, Uvebrant P. The natural history of gross motor development in children with cerebral palsy aged 1 to 15 years. Dev Med Child Neurol. 2007;49(10):751–6.CrossRef

11.

Palisano RJ, Cameron D, Rosenbaum PL, Walter SD, Russell D. Stability of the gross motor function classification system. Dev Med Child Neurol. 2006;48(6):424–8.CrossRef

12.

McCormick A, Brien M, Plourde J, Wood E, Rosenbaum P, McLean J. Stability of the gross motor function classification system in adults with cerebral palsy. Dev Med Child Neurol. 2007;49(4):265–9.CrossRef

13.

Gorter JW, Ketelaar M, Rosenbaum P, Helders PJ, Palisano R. Use of the GMFCS in infants with CP: the need for reclassification at age 2 years or older. Dev Med Child Neurol. 2009;51(1):46–52.CrossRef

14.

Friel K, Chakrabarty S, Kuo HC, Martin J. Using motor behavior during an early critical period to restore skilled limb movement after damage to the corticospinal system during development. J Neurosci. 2012;32(27):9265–76.CrossRef

15.

Cioni G, D’Acunto G, Guzzetta A. Perinatal brain damage in children: neuroplasticity, early intervention, and molecular mechanisms of recovery. Prog Brain Res. 2011;189:139–54.CrossRef

16.

Krishnan RV. Relearning of locomotion in injured spinal cord: new directions for rehabilitation programs. Int J Neurosci. 2003;113(10):1333–51.CrossRef

17.

Damiano DL, Alter KE, Chambers H. New clinical and research trends in lower extremity management for ambulatory children with cerebral palsy. Phys Med Rehabil Clin N Am. 2009;20(3):469–91.CrossRef

18.

Rosenbaum P, Paneth N, Leviton A, Goldstein M, Bax M, Damiano D, et al. A report: the definition and classification of cerebral palsy April 2006. Dev Med Child Neurol Suppl. 2007;109:8–14.PubMed

19.

Wolf SL, Winstein CJ, Miller JP, Taub E, Uswatte G, Morris D, et al. Effect of constraint-induced movement therapy on upper extremity function 3 to 9 months after stroke: the EXCITE randomized clinical trial. JAMA. 2006;296(17):2095–104.CrossRef

20.

Horn SD, DeJong G, Smout RJ, Gassaway J, James R, Conroy B. Stroke rehabilitation patients, practice, and outcomes: is earlier and more aggressive therapy better? Arch Phys Med Rehabil. 2005;86(12 Suppl 2):S101–S14.CrossRef

21.

Dobkin B, Barbeau H, Deforge D, Ditunno J, Elashoff R, Apple D, et al. The evolution of walking-related outcomes over the first 12 weeks of rehabilitation for incomplete traumatic spinal cord injury: the multicenter randomized spinal cord injury Locomotor trial. Neurorehabil Neural Repair. 2007;21(1):25–35.CrossRef

22.

Nudo RJ. Adaptive plasticity in motor cortex: implications for rehabilitation after brain injury. J Rehabil Med. 2003;41 Suppl:7–10.CrossRef

23.

Hlustik P, Solodkin A, Noll DC, Small SL. Cortical plasticity during three-week motor skill learning. J Clin Neurophysiol. 2004;21(3):180–91.CrossRef

24.

Winchester P, McColl R, Querry R, Foreman N, Mosby J, Tansey K, et al. Changes in supraspinal activation patterns following robotic locomotor therapy in motor-incomplete spinal cord injury. Neurorehabil Neural Repair. 2005;19(4):313–24.CrossRef

25.

Harbourne RT, Stergiou N. Movement variability and the use of nonlinear tools: principles to guide physical therapist practice. Phys Ther. 2009;89(3):267–82.CrossRef

26.

Cai LL, Fong AJ, Otoshi CK, Liang Y, Burdick JW, Roy RR, et al. Implications of assist-as-needed robotic step training after a complete spinal cord injury on intrinsic strategies of motor learning. J Neurosci. 2006;26(41):10564–8.CrossRef

27.

Lewek MD, Cruz TH, Moore JL, Roth HR, Dhaher YY, Hornby TG. Allowing intralimb kinematic variability during locomotor training poststroke improves kinematic consistency: a subgroup analysis from a randomized clinical trial. Phys Ther. 2009;89(8):829–39.CrossRef

28.

Kleim JA, Jones TA. Principles of experience-dependent neural plasticity: implications for rehabilitation after brain damage. J Speech Lang Hear Res. 2008;51(1):S225–39.CrossRef

29.

Krebs HI, Volpe B, Hogan N. A working model of stroke recovery from rehabilitation robotics practitioners. J Neuroeng Rehabil. 2009;6:6.CrossRef

30.

Torres-Oviedo G, Bastian AJ. Natural error patterns enable transfer of motor learning to novel contexts. J Neurophysiol. 2012;107(1):346–56.CrossRef

31.

Patton JL, Stoykov ME, Kovic M, Mussa-Ivaldi FA. Evaluation of robotic training forces that either enhance or reduce error in chronic hemiparetic stroke survivors. Exp Brain Res. 2006;168(3):368–83.CrossRef

32.

Hornby TG, Campbell DD, Kahn JH, Demott T, Moore JL, Roth HR. Enhanced gait-related improvements after therapist- versus robotic-assisted locomotor training in subjects with chronic stroke: a randomized controlled study. Stroke. 2008;39(6):1786–92.CrossRef

33.

Galloway JC, Thelen E. Feet first: object exploration in young infants. Infant Behavior & Development. 2004;27(1):107–12.CrossRef

34.

Adolph KE, Cole WG, Komati M, Garciaguirre JS, Badaly D, Lingeman JM, et al. How do you learn to walk? Thousands of steps and dozens of falls per day. Psychol Sci. 2012;23(11):1387–94.CrossRef

35.

Joh AS, Adolph KE. Learning from falling. Child Dev. 2006;77(1):89–102.CrossRef

36.

Adolph KE. Learning to move. Curr Dir Psychol Sci. 2008;17(3):213–8.CrossRef

37.

Thelen E. Determinants of amounts of stereotyped behavior in Normal human infants. Ethol Sociobiol. 1980;1(2):141–50.CrossRef

38.

Prosser LA, Ohlrich LB, Curatalo LA, Alter KE, Damiano DL. Feasibility and preliminary effectiveness of a novel mobility training intervention in infants and toddlers with cerebral palsy. Dev Neurorehabil. 2012;15(4):259–66.CrossRef

39.

Rounsaville BJ, Carroll KM, Onken LS. A stage model of behavioral therapies research: getting started and moving on from stage I. Clinical Psychology-Science and Practice. 2001;8(2):133–42.CrossRef

40.

Chan AW, Tetzlaff JM, Altman DG, Laupacis A, Gotzsche PC, Krleza-Jeric K, et al. SPIRIT 2013 statement: defining standard protocol items for clinical trials. Ann Intern Med. 2013;158(3):200–7.CrossRef

41.

McIntyre S, Morgan C, Walker K, Novak I. Cerebral palsy--don't delay. Dev Disabil Res Rev. 2011;17(2):114–29.CrossRef

42.

McMillan JA, Feigin RD, DeAngelis C, Jones MD. Oski’s pediatrics: principles & practice. 4th ed. Philadelphia: Lippincott Williams & Wilkins; 2006.

43.

Surveillance of Cerebral Palsy in Europe. Surveillance of cerebral palsy in Europe: a collaboration of cerebral palsy surveys and registers. Surveillance of Cerebral Palsy in Europe (SCPE). Dev Med Child Neurol. 2000;42(12):816–24.CrossRef

44.

Lee JH, Lim HK, Park E, Song J, Lee HS, Ko J, et al. Reliability and applicability of the Bayley scale of infant development-II for children with cerebral palsy. Ann Rehabil Med. 2013;37(2):167–74.CrossRef

45.

Bayley N. Bayley scales of infant and toddler development. Third ed. Harcourt Assessment, Inc: San Antonio; 2006.

46.

Russell DJ, Rosenbaum PL, Avery LM, Lane M. Gross motor function measure (GMFM-66 & GMFM-88) User’s manual. London: Mac Keith Press; 2002.

47.

Russell DJ, Avery LM, Rosenbaum PL, Raina PS, Walter SD, Palisano RJ. Improved scaling of the gross motor function measure for children with cerebral palsy: evidence of reliability and validity. Phys Ther. 2000;80(9):873–85.PubMed

48.

Hanna SE, Bartlett DJ, Rivard LM, Russell DJ. Reference curves for the gross motor function measure: percentiles for clinical description and tracking over time among children with cerebral palsy. Phys Ther. 2008;88(5):596–607.CrossRef

49.

Palisano RJ, Begnoche DM, Chiarello LA, Bartlett DJ, McCoy SW, Chang HJ. Amount and focus of physical therapy and occupational therapy for young children with cerebral palsy. Phys Occup Ther Pediatr. 2012;32(4):368–82.CrossRef

50.

Duncan PW, Sullivan KJ, Behrman AL, Azen SP, Wu SS, Nadeau SE, et al. Body-weight-supported treadmill rehabilitation after stroke. N Engl J Med. 2011;364(21):2026–36.CrossRef

51.

McCoy SW, Bartlett DJ, Yocum A, Jeffries L, Fiss AL, Chiarello L, et al. Development and validity of the early clinical assessment of balance for young children with cerebral palsy. Dev Neurorehabil. 2014;17(6):375–83.CrossRef

52.

Randall KE, Bartlett DJ, McCoy SW. Measuring postural stability in young children with cerebral palsy: a comparison of 2 instruments. Pediatr Phys Ther. 2014;26(3):332–7.CrossRef

53.

Dusing SC, Kyvelidou A, Mercer VS, Stergiou N. Infants born preterm exhibit different patterns of center-of-pressure movement than infants born at full term. Phys Ther. 2009;89(12):1354–62.CrossRef

54.

Carswell A, McColl MA, Baptiste S, Law M, Polatajko H, Pollock N. The Canadian occupational performance measure: a research and clinical literature review. Can J Occup Ther. 2004;71(4):210–22.CrossRef

55.

Chiarello LA, Palisano RJ, McCoy SW, Bartlett DJ, Wood A, Chang HJ, et al. Child engagement in daily life: a measure of participation for young children with cerebral palsy. Disabil Rehabil. 2014;36(21):1804–16.CrossRef

56.

Campos JJ, Anderson DI, Barbu-Roth MA, Hubbard EM, Hertenstein MJ, Witherington D. Travel broadens the mind. Infancy. 2000;1(2):149–219.CrossRef

57.

Lynch A, Ryu JC, Agrawal S, Galloway JC. Power mobility training for a 7-month-old infant with spina bifida. Pediatr Phys Ther. 2009;21(4):362–8.CrossRef

58.

Law MC, Darrah J, Pollock N, Wilson B, Russell DJ, Walter SD, et al. Focus on function: a cluster, randomized controlled trial comparing child- versus context-focused intervention for young children with cerebral palsy. Dev Med Child Neurol. 2011;53(7):621–9.CrossRef

59.

The Databrary Project. A video data library for developmental science [Internet]: New York University; 2012. Available from: https://nyu.databrary.org/.

60.

Harris PA, Taylor R, Thielke R, Payne J, Gonzalez N, Conde JG. Research electronic data capture (REDCap)--a metadata-driven methodology and workflow process for providing translational research informatics support. J Biomed Inform. 2009;42(2):377–81.CrossRef

61.

Laird NM, Ware JH. Random-effects models for longitudinal data. Biometrics. 1982;38(4):963–74.CrossRef

62.

Zeger SL, Liang KY. Longitudinal data analysis for discrete and continuous outcomes. Biometrics. 1986;42(1):121–30.CrossRef

63.

Morgan C, Novak I, Dale RC, Guzzetta A, Badawi N. GAME (goals - activity - motor enrichment): protocol of a single blind randomised controlled trial of motor training, parent education and environmental enrichment for infants at high risk of cerebral palsy. BMC Neurol. 2014;14:203.CrossRef

64.

Harbourne RT, Dusing SC, Lobo MA, Westcott-McCoy S, Bovaird J, Sheridan S, et al. Sitting together and reaching to play (START-play): protocol for a multisite randomized controlled efficacy trial on intervention for infants with Neuromotor disorders. Phys Ther. 2018;98(6):494–502.CrossRef

Title: iMOVE: Intensive Mobility training with Variability and Error compared to conventional rehabilitation for young children with cerebral palsy: the protocol for a single blind randomized controlled trial
Authors: Laura A. Prosser
Samuel R. Pierce
Timothy R. Dillingham
Judy C. Bernbaum
Abbas F. Jawad
Publication date: 01-12-2018
Publisher: BioMed Central
Published in: BMC Pediatrics / Issue 1/2018
Electronic ISSN: 1471-2431
DOI: https://doi.org/10.1186/s12887-018-1303-8

At a glance: The STEP trials

Springer Medicine

iMOVE: Intensive Mobility training with Variability and Error compared to conventional rehabilitation for young children with cerebral palsy: the protocol for a single blind randomized controlled trial

Abstract

Background

Methods

Discussion

Trial registration

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Methods

Discussion

Trial registration

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