Abstract
Aims: To assess the specificity of assistance provided by a sit-to-stand training device compared to unassisted sit-to-stand by quantifying the change in kinematic strategies and joint kinetic demands with decreasing assistance.
Methods: Participants completed the sit-to-stand transfer at 5 randomized assistance levels (unassisted; 40%, 50%, 60%, and 70% body mass) using a sit-to-stand trainer while kinematic and ground reaction force data were collected.
Results: Increasing assistance significantly increased total movement time (P = .009, 95% CIdiff = .46 to1.2s), shifted key events earlier (P < .002, 95% CIdiff = 2.0 to10.4%), decreased joint flexion angles (P < .001, 95% CIdiff = 2.4 to 8.2°), and decreased trunk flexion angular momentum (P < .001, 95% CIdiff = .01 to .09 kg•m2/s).). Increasing assistance had the greatest effect on the hip joint, with decreases in peak net joint moment (P < .001, d = 1.8) and angular work (P < .001, d = 2.2).
Conclusions: As assistance decreased, mechanics while using the device became more similar to an unassisted sit-to-stand, suggesting promising use for progressive rehabilitation.
Disclosure statement
Bryan Riemann works as a clinical instructor to Biodex Medical Systems. Sit2Stand Trainer was loaned to Biodynamics and Human Performance Center by Biodex Medical Systems for current study. No funding was provided from Biodex.