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Locomotion Strategies of Low Back Pain Patients in a Dynamic Environment

Recruiting
Conditions
Walking
Chronic Low-back Pain
Registration Number
NCT05851118
Lead Sponsor
University of Rennes 2
Brief Summary

The biomechanical parameters studied in non-specific chronic low back pain patients in a locomotion task have so far focused on straight line walking. Although locomotion is primarily an automated action composed of repetitive patterns allowing movement from one place to another, walkers must respond to the environmental demands.These modifications show a flexible and adaptive approach to the constraints of the environment. In this study, the investigators are particularly interested in a task of crossing between two pedestrians, which is a standardised task that has shown its interest in the study of perceptual-motor co-ordination. In particular, it allows to study the mutual adaptation of speed and orientation between the two walkers.

Detailed Description

Not available

Recruitment & Eligibility

Status
RECRUITING
Sex
All
Target Recruitment
36
Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Primary Outcome Measures
NameTimeMethod
Threshold for motion adaptationClinical assessment at base line

Thresholds of adaptation to movement will be identified by comparing the minimum crossing distance and the minimum predicted distance of crossing at the time the walkers first see each other.

Secondary Outcome Measures
NameTimeMethod
Contribution to collision avoidanceClinical assessment at base line

During the interaction period, a cumulative contribution must be made by both walkers to avoid a collision. Analysis of the contribution of each walker (speed and orientation).

Walking speedClinical assessment at base line

Analysis of the walking speed of each walker for the control tests, i.e. where the walker has not encountered another walker.

Inversion of crossing orderClinical assessment at base line

mpd(t) was assigned according to the final crossing order between two walkers in such a way that allowed for a positive mpd (tcross). In doing so, a positive mpd(tsee) suggests that crossing order was preserved along the entire interaction. Alternatively, a negative mpd (tsee) is the result of an inversion in crossing order between the two walkers.

Minimum Predicted DistanceClinical assessment at base line

Minimum Predicted Distance (mpd) represents the theoretical crossing distance between the future positions of the participants, based on a linear extrapolation of their trajectory given their current position and speed at time (t). Any variation in mpd(t) indicates that a movement adaptation to avoid a collision has taken place between two walkers.

Trial Locations

Locations (1)

University of Rennes 2

🇫🇷

Rennes, France

University of Rennes 2
🇫🇷Rennes, France
Agathe Bilhaut, PhD student
Contact
+33 (0) 632030985
agathe.bilhaut@univ-rennes2.fr
Anne-Hélène Olivier, PhD
Contact
anne-helene.olivier@univ-rennes2.fr
Mathieu Ménard, PhD
Sub Investigator
Armel Crétual, PhD
Sub Investigator
Olivier Roze, MD
Principal Investigator
Phillipe Carson Jouzel, MD
Sub Investigator

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