Effectiveness of the graded motor imagery to improve hand function in patients with distal radius fracture: A randomized controlled trial

Burcu Dilek; Cigdem Ayhan; Gozde Yagci; Yavuz Yakut

doi:10.1016/j.jht.2017.09.004

Effectiveness of the graded motor imagery to improve hand function in patients with distal radius fracture: A randomized controlled trial

J Hand Ther. 2018 Jan-Mar;31(1):2-9.e1. doi: 10.1016/j.jht.2017.09.004. Epub 2017 Nov 6.

Authors

Burcu Dilek¹, Cigdem Ayhan², Gozde Yagci², Yavuz Yakut³

Affiliations

¹ Department of Physical Therapy and Rehabilitation, Istanbul Medipol University, Istanbul, Turkey. Electronic address: bdilek@medipol.edu.tr.
² Physiotherapy and Rehabilitation Department, Hacettepe University Faculty of Health Sciences, Ankara, Turkey.
³ Department of Physical Therapy and Rehabilitation, Hasan Kalyoncu University, Gaziantep, Turkey.

PMID: 29122370
DOI: 10.1016/j.jht.2017.09.004

Abstract

Study design: Single-blinded randomized controlled trial.

Introduction: Pain management is essential in the early stages of the rehabilitation of distal radius fractures (DRFx). Pain intensity at the acute stage is considered important for determining the individual recovery process, given that higher pain intensity and persistent pain duration negatively affect the function and cortical activity of pain response. Graded motor imagery (GMI) and its components are recent pain management strategies, established on a neuroscience basis.

Purpose of the study: To investigate the effectiveness of GMI in hand function in patients with DRFx.

Methods: Thirty-six participants were randomly allocated to either GMI (n = 17; 52.59 [9.8] years) or control (n = 19; 47.16 [10.5] years) groups. The GMI group received imagery treatment in addition to traditional rehabilitation, and the control group received traditional rehabilitation for 8 weeks. The assessments included pain at rest and during activity using the visual analog scale, wrist and forearm active range of motion (ROM) with universal goniometer, grip strength with the hydraulic dynamometer (Jamar; Bolingbrook, IL), and upper extremity functional status using the Disability of the Arm, Shoulder and Hand Questionnaire, and the Michigan Hand Questionnaire. Assessments were performed twice at baseline and at the end of the eighth week.

Results: The GMI group showed greater improvement in pain intensity (during rest, 2.24; activity, 6.18 points), wrist ROM (flexion, -40.59; extension, -45.59; radial deviation, -25.59; and ulnar deviation, -26.77 points) and forearm ROM (supination, -43.82 points), and functional status (Disability of the Arm, Shoulder and Hand Questionnaire, 38.00; Michigan Hand Questionnaire, -32.53 points) when compared with the control group (for all, P < .05).

Conclusion: The cortical model of pathological pain suggests new strategies established on a neuroscience basis. These strategies aim to normalize the cortical proprioceptive representation and reduce pain. One of these recent strategies, GMI appears to provide beneficial effects to control pain, improve grip strength, and increase upper extremity functions in patients with DRFx.

Keywords: Graded motor imagery; Pain; Radius fractures; Rehabilitation.

Publication types

Randomized Controlled Trial

MeSH terms

Adult
Female
Fracture Fixation*
Hand Strength
Humans
Imagery, Psychotherapy*
Male
Middle Aged
Motor Activity*
Radius Fractures / physiopathology
Radius Fractures / rehabilitation*
Radius Fractures / surgery*
Range of Motion, Articular
Recovery of Function
Single-Blind Method
Treatment Outcome