Searchable abstracts of presentations at key conferences on calcified tissues
Bone Abstracts (2019) 7 P202 | DOI: 10.1530/boneabs.7.P202

ICCBH2019 Poster Presentations (1) (226 abstracts)

Vibration therapy improves mobility and has no detrimental impact on bone health in adolescents with mild cerebral palsy independent of daily protocol duration (9 minutes/day vs. 15 minutes/day)

Silmara Gusso 1, , Renuka Mahadevan 1 , Jose Derraik 1, , Wayne Cutfield 1 & Paul Hofman 1

1Liggins Institute, University of Auckland, Auckland, New Zealand; 2Department of Exercise Sciences, University of Auckland, Auckland, New Zealand; 3A Better Start- National Science Challenge, University of Auckland, Auckland, New Zealand; 4Department of Women’s and Children’s Health, Uppsala University, Uppsala, Sweden.

Adolescents with cerebral palsy (CP) have altered muscle tone and reduced bone mass, which can lead to impaired mobility and function increasing their risk for osteopenia in later life. OBJECTIVES: We evaluated the efficacy of two side-alternating vibration therapy (VT) protocols (9 minutes/day versus 15 minutes/day) over a 20-week program on mobility and bone health in adolescents with mild CP. METHODS: Sixteen participants (12.4±0.9 years; 10 males) with mild cerebral palsy were recruited for the 15 minutes/day VT protocol. Retrospective data from 33 participants (15.9±0.5 years; 22 males) that performed the 9 minutes/day VT protocol were used as comparison. Assessments included the 6-minute walk test and whole-body dual-energy X-ray absorptiometry at baseline and after 20 weeks of intervention. RESULTS: Twenty weeks of VT increased the distance walked in the six-minute walk test by 11% in the 9 minutes/day group (+45 m; P<0.001) and by 9% in the 15 minutes/day group (+40 m; P=0.003). Comparison between the adjusted change in mobility of the two training protocols showed no differences (P=0.77). Lean mass increased in both the 9 minutes/day group (P=0.001) and 15 minutes/day group (P=0.05) but percentage lean mass remained the same and there was no difference between protocols (P=0.11). Participants in the 9 minutes/day group increased total body bone mineral content and density (P<0.001 & P=0.005, respectively) while the participants in the 15 minutes/day group increased total body bone mineral content (P=0.005) after intervention. Both groups increased spine bone mineral density (P=0.005 & P=0.005 respectively). Adjusted changes in bone composition were only significantly different between protocols for spine bone mineral density, which showed a greater change with the 15 minutes/day group (P=0.036). CONCLUSION: VT was an effective intervention in increasing mobility with no detrimental impact on body composition and bone heath in adolescents with mild CP. However extending the duration of training had no effect on 20 week outcomes.

Disclosure: The authors declared no competing interests.

Volume 7

9th International Conference on Children's Bone Health


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