Effects of change in walking speed on time-distance parameters in post-stroke hemiplegic gait

Ken Tomida; Kei Ohtsuka; Toshio Teranishi; Hiroki Ogawa; Misaki Takai; Akira Suzuki; Kenji Kawakami; Shigeru Sonoda

doi:10.20407/fmj.2021-016

Effects of change in walking speed on time-distance parameters in post-stroke hemiplegic gait

Fujita Med J. 2022 Nov;8(4):121-126. doi: 10.20407/fmj.2021-016. Epub 2022 Jan 25.

Authors

Ken Tomida^{1

2}, Kei Ohtsuka³, Toshio Teranishi³, Hiroki Ogawa², Misaki Takai², Akira Suzuki², Kenji Kawakami², Shigeru Sonoda^{2

4}

Affiliations

¹ Graduate School of Health Sciences, Fujita Health University, Toyoake, Aichi, Japan.
² Fujita Health University Nanakuri Memorial Hospital, Tsu, Mie, Japan.
³ Faculty of Rehabilitation, School of Health Sciences, Fujita Health University, Toyoake, Aichi, Japan.
⁴ Department of Rehabilitation Medicine II, School of Medicine, Fujita Health University, Tsu, Mie, Japan.

Abstract

Objectives: In stroke patients, the assessment of gait ability over time is important. For quantitative gait assessment using measuring devices, the walking speed condition for measurement is generally based on the patient's preferred walking speed or the maximum walking speed at the time of measurement. However, because walking speed often increases during the convalescent stage, understanding the effects of change in walking speed on gait when comparing the course of recovery is necessary. Although several previous studies have reported the effects of change in walking speed on gait in stroke patients, the time-distance parameters described in these reports may not be generalizable because of the small case numbers. Therefore, we measured treadmill gait at the preferred walking speed (PWS) and 1.3 times the PWS (130% PWS) in 43 post-stroke hemiplegic patients and analyzed the effects of change in walking speed on time-distance parameters.

Methods: Forty-three patients with hemiplegia after a first stroke, who were able to walk on a treadmill under supervision, were recruited as subjects. Using a three-dimensional motion analysis system, treadmill gait was assessed under two conditions: PWS and 130% PWS. The primary outcome measures were the time-distance parameters, which were compared between the PWS and 130% PWS conditions.

Results: Cadence, stride length, and step length of the affected and unaffected lower limbs increased significantly at 130% PWS compared with at PWS. In terms of actual time, single stance time and initial and terminal double stance time in both affected and unaffected limbs decreased significantly at 130% PWS. In terms of relative time (% of the gait cycle), compared with PWS, relative single stance time increased significantly, whereas relative initial and terminal double stance times decreased significantly at 130% PWS in both the affected and unaffected limbs.

Conclusions: This study on treadmill gait in patients with hemiplegia after a first stroke confirmed the effects of change in walking speed on time-distance parameters. Our results will help in the interpretation of time-distance parameters measured under different walking speed conditions.

Keywords: Stroke; Time-distance parameters; Walking speed.