Continuous real-time biofeedback in orthosis improves partial weight bearing on stairs

Arch Orthop Trauma Surg. 2023 Sep;143(9):5701-5706. doi: 10.1007/s00402-023-04878-y. Epub 2023 May 23.

Abstract

Introduction: Climbing up and down stairs with crutches is a particular challenge. The current study evaluates a commercially available insole orthosis device for weighing an affected limb and for biofeedback training of gait. This study was done on healthy, asymptomatic individuals before applying to the intended postoperative patient. The outcomes should demonstrate whether a continuous real-time biofeedback (BF) system is more effective on stairs than the current protocol involving a bathroom scale.

Materials and methods: 59 healthy test subjects received both crutches and an orthosis and learned to apply a 3-point gait with a partial load of 20 kg using a bathroom scale. Thereafter, the participants were asked to complete an up-and-down course, first without (control group) and then with (test group) an audio-visual real-time biofeedback (BF). Compliance was evaluated using an insole pressure measurement system.

Results: Using the conventional therapy technique, 36.6% of the steps up and 39.1% of the steps down in the control group were loaded with < 20 kg. By activating continuous biofeedback, steps with < 20 kg could be increased significantly to 61.1% upstairs (p < 0.001) and 66.1% downstairs (p < 0.001). All subgroups profited from the BF system, independent of age, gender, side relieved, dominant or non-dominant side.

Conclusions: Traditional training without biofeedback led to poor performance for partial weight bearing on stairs, even among young and healthy individuals. However, continuous real-time biofeedback clearly improved compliance, indicating its potential to enhance training and support future research in patient populations.

Keywords: Biofeedback; Orthosis; Partial weight bearing; Pressure sensor; Rehabilitation.

MeSH terms

  • Biofeedback, Psychology* / methods
  • Gait
  • Humans
  • Orthotic Devices
  • Partial Weight-Bearing*
  • Weight-Bearing