Muscle strength enhancement following home-based virtual cycling training in ambulatory children with cerebral palsy.

This study is the first well-designed randomized controlled trial to assess the effects of a novel home-based virtual cycling training (hVCT) program for improving muscle strength in children with spastic cerebral palsy (CP). Twenty-eight ambulatory children with spastic CP aged 6-12 years were randomly assigned to an hVCT group (n=13) or a control group (n=15). Outcome measures, including gross motor function of the Bruininks-Oseretsky Test of Motor Proficiency (BOTMP) and muscle strength (isokinetic torque of knee extensor and flexor muscle), were administered before and immediately after the 12-week intervention. Analysis of covariance (ANCOVA) at post-treatment showed that, compared to the control group, the hVCT group had significantly higher isokinetic torque in the knee extensor and flexor muscles at 60°/s and 120°/s angular velocities (p<0.05). At post-treatment, the hVCT group also showed greater isokinetic strength improvement in the knee flexor than in the knee extensor at 60°/s (knee flexor: 41%; knee extensor: 19%) and at 120°/s (knee flexor: 36%; knee extensor: 30%). However, the BOTMP scores at post-treatment did not differ between the two groups. Although the proposed 12-week hVCT protocol does not improve gross motor function, it enhances knee muscle strength in children with CP. The protocol obtains larger gains in the knee flexor than in the knee extensor at different angular velocities. The study findings will help clinicians to provide more effective and efficient strategies for muscle strength training in children with CP.

[1]  U. Givon [Muscle weakness in cerebral palsy]. , 2009, Acta orthopaedica et traumatologica turcica.

[2]  Angus K McFadyen,et al.  The effects of progressive resistance training for children with cerebral palsy , 2005, Clinical rehabilitation.

[3]  J H Wilmore,et al.  Specificity of power improvements through slow and fast isokinetic training. , 1981, Journal of applied physiology: respiratory, environmental and exercise physiology.

[4]  D. Damiano,et al.  Effects Of Quadriceps Femoris Muscle Strengthening On Crouch Gait In Children With Spastic Diplegia , 1995, Physical therapy.

[5]  J. H. Lee,et al.  Therapeutic effects of strengthening exercise on gait function of cerebral palsy , 2008, Disability and rehabilitation.

[6]  Denise Reid,et al.  The influence of virtual reality on playfulness in children with cerebral palsy: a pilot study. , 2004, Occupational therapy international.

[7]  S. Lo,et al.  Motor Factors Associated with Health-Related Quality-of-Life in Ambulatory Children with Cerebral Palsy , 2011, American journal of physical medicine & rehabilitation.

[8]  Samuel C. K. Lee,et al.  Biomechanics of Submaximal Recumbent Cycling in Adolescents With and Without Cerebral Palsy , 2007, Physical Therapy.

[9]  J. McDowell,et al.  The Effects of Strength Training on Gait in Adolescents with Cerebral Palsy , 2004, Pediatric physical therapy : the official publication of the Section on Pediatrics of the American Physical Therapy Association.

[10]  E. Rampinini,et al.  Reliability of isokinetic strength imbalance ratios measured using the Cybex NORM dynamometer , 2008, Clinical physiology and functional imaging.

[11]  J. Becher,et al.  Effectiveness of functional progressive resistance exercise training on walking ability in children with cerebral palsy: a randomized controlled trial. , 2011, Research in developmental disabilities.

[12]  R. Palisano,et al.  Development and reliability of a system to classify gross motor function in children with cerebral palsy , 1997, Developmental medicine and child neurology.

[13]  Eva Beckung,et al.  Muscle strength training to improve gait function in children with cerebral palsy , 2008, Developmental medicine and child neurology.

[14]  Ching-Yi Wu,et al.  Comparison of developmental pattern change in preschool children with spastic diplegic and quadriplegic cerebral palsy. , 2010, Chang Gung medical journal.

[15]  Katherine M Steele,et al.  Can Strength Training Predictably Improve Gait Kinematics? A Pilot Study on the Effects of Hip and Knee Extensor Strengthening on Lower-Extremity Alignment in Cerebral Palsy , 2010, Physical Therapy.

[16]  B. Dan,et al.  A report: the definition and classification of cerebral palsy April 2006 , 2007, Developmental medicine and child neurology. Supplement.

[17]  K.-C. Lin,et al.  Relationships of muscle strength and bone mineral density in ambulatory children with cerebral palsy , 2012, Osteoporosis International.

[18]  Jack R Engsberg,et al.  Relationships between spasticity, strength, gait, and the GMFM-66 in persons with spastic diplegia cerebral palsy. , 2007, Archives of physical medicine and rehabilitation.

[19]  Mark Hallett,et al.  Cortical reorganization induced by virtual reality therapy in a child with hemiparetic cerebral palsy , 2005, Developmental medicine and child neurology.

[20]  A J Dallmeijer,et al.  Association between isometric muscle strength and gait joint kinetics in adolescents and young adults with cerebral palsy. , 2009, Gait & posture.

[21]  M. Abel,et al.  Functional outcomes of strength training in spastic cerebral palsy. , 1998, Archives of physical medicine and rehabilitation.

[22]  Ching-Yi Wu,et al.  Relationships between developmental profiles and ambulatory ability in A follow-up study of preschool children with spastic quadriplegic cerebral palsy. , 2010, Chang Gung medical journal.

[23]  O Airaksinen,et al.  Knee extensor fatigability and strength after bicycle ergometer training. , 1994, Archives of physical medicine and rehabilitation.

[24]  R. Shepherd,et al.  Functional strength training in cerebral palsy: a pilot study of a group circuit training class for children aged 4–8 years , 2003, Clinical rehabilitation.

[25]  M. Abel,et al.  Deficits in eccentric versus concentric torque in children with spastic cerebral palsy. , 2001, Medicine and science in sports and exercise.

[26]  J. Becher,et al.  Effectiveness of functional progressive resistance exercise strength training on muscle strength and mobility in children with cerebral palsy: a randomized controlled trial , 2010, Developmental medicine and child neurology.

[27]  Brian T. Smith,et al.  Lower extremity muscle activity during cycling in adolescents with and without cerebral palsy. , 2008, Clinical biomechanics.

[28]  Richard B. Souza,et al.  Pediatric Endurance and Limb Strengthening (PEDALS) for Children With Cerebral Palsy Using Stationary Cycling: A Randomized Controlled Trial , 2010, Physical Therapy.

[29]  Jacob Cohen Statistical Power Analysis for the Behavioral Sciences , 1969, The SAGE Encyclopedia of Research Design.

[30]  Eva Beckung,et al.  Walking ability is related to muscle strength in children with cerebral palsy. , 2008, Gait & posture.

[31]  A. Majnemer,et al.  Virtual reality as a therapeutic modality for children with cerebral palsy , 2010, Developmental neurorehabilitation.