BACKGROUND: The health benefits associated with physical activity-based rehabilitation in patients with no lower-extremity motor function after a spinal cord injury (SCI) is uncertain. METHODS: The authors assessed signs of efficacy, safety, and utility associated with a novel pharmacological combination therapy to activate central pattern generator (CPG) activity and corresponding locomotor activity in complete thoracic Th9/10-transected mice. RESULTS: Subcutaneous administration 4 times per week for 1 month of 1.5 mg/kg buspirone, 1.5 mg/kg apomorphine, 12.5 mg/kg benserazide, and 50 mg/kg L-DOPA induced episodes of weight-bearing stepping on a treadmill in nonassisted paraplegic mice for 45-minute sessions. Hindlimb muscle cross-sectional area and fiber area values as well as several blood cell constituent levels assessed at 30 days postinjury were positively affected by the combination therapy, as compared with controls. Episodes of locomotion remained effective on each treatment. Femoral bone mineral density loss was not prevented by triple therapy. CONCLUSION: Although translation of these findings needs further experimentation, similar pharmacological activation of the CPG offers a novel therapeutic target to provide some health benefits in motor-complete SCI patients.
BACKGROUND: The health benefits associated with physical activity-based rehabilitation in patients with no lower-extremity motor function after a spinal cord injury (SCI) is uncertain. METHODS: The authors assessed signs of efficacy, safety, and utility associated with a novel pharmacological combination therapy to activate central pattern generator (CPG) activity and corresponding locomotor activity in complete thoracic Th9/10-transected mice. RESULTS: Subcutaneous administration 4 times per week for 1 month of 1.5 mg/kg buspirone, 1.5 mg/kg apomorphine, 12.5 mg/kg benserazide, and 50 mg/kg L-DOPA induced episodes of weight-bearing stepping on a treadmill in nonassisted paraplegic mice for 45-minute sessions. Hindlimb muscle cross-sectional area and fiber area values as well as several blood cell constituent levels assessed at 30 days postinjury were positively affected by the combination therapy, as compared with controls. Episodes of locomotion remained effective on each treatment. Femoral bone mineral density loss was not prevented by triple therapy. CONCLUSION: Although translation of these findings needs further experimentation, similar pharmacological activation of the CPG offers a novel therapeutic target to provide some health benefits in motor-complete SCI patients.
Authors: Krista L Caudle; Edward H Brown; Alice Shum-Siu; Darlene A Burke; Trystan S G Magnuson; Michael J Voor; David S K Magnuson Journal: Neurorehabil Neural Repair Date: 2011-06-22 Impact factor: 3.919
Authors: Pavel Musienko; Rubia van den Brand; Olivia Märzendorfer; Roland R Roy; Yury Gerasimenko; V Reggie Edgerton; Grégoire Courtine Journal: J Neurosci Date: 2011-06-22 Impact factor: 6.167
Authors: Simon A Sharples; Kathrin Koblinger; Jennifer M Humphreys; Patrick J Whelan Journal: Front Neural Circuits Date: 2014-06-16 Impact factor: 3.492