PLOS Digital Health (Feb 2023)

Sensor-based telerehabilitation system increases patient adherence after knee surgery.

  • Jürgen Höher,
  • Betty Lischke,
  • Wolf Petersen,
  • Natalie Mengis,
  • Daniel Niederer,
  • Thomas Stein,
  • Thomas Stoffels,
  • Robert Prill,
  • Caroline Schmidt-Lucke

DOI
https://doi.org/10.1371/journal.pdig.0000175
Journal volume & issue
Vol. 2, no. 2
p. e0000175

Abstract

Read online

ObjectivesImplementing evidence-based recommendations with the option of patient-individualised and situation-specific adaptations in telerehabilitation may increase adherence with improved clinical outcome.MethodsAs part of a registry-embedded hybrid design (part 1), digital medical device (DMD)-usage in a home-based setting was analysed in a multinational registry. The DMD combines an inertial motion-sensor system with instructions for exercises and functional tests on smartphones. A prospective, single-blinded, patient-controlled, multicentre intervention study (DRKS00023857) compared implementation capacity of the DMD to standard physiotherapy (part 2). Usage patterns by health care providers (HCP) were assessed (part 3).Results and conclusionRegistry raw data (10,311 measurements) were analysed from 604 DMD-users, demonstrating clinically expected rehabilitation progression post knee injuries. DMD-users performed tests for range-of-motion, coordination and strength/speed enabling insight to stage-specific rehabilitation (χ2 = 44.9, p<0.001). Intention-to-treat-analysis (part 2) revealed DMD-users to have significantly higher adherence to the rehabilitation intervention compared to the matched patient-control-group (86% [77-91] vs. 74% [68-82], p<0.05). DMD-users performed recommended exercises at home with higher intensity (p<0.05). HCP used DMD for clinical decision making. No adverse events related to the DMD were reported. Adherence to standard therapy recommendations can be increased using novel high quality DMD with high potential to improve clinical rehabilitation outcome, enabling evidence-based telerehabilitation.