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Exploring the effects of task design on the flexion-relaxation phenomenon in the lumbar spine during repetitive lifting McIntosh, Benjamin
Abstract
Repetitive forward flexion of the lumbar spine is involved with occupations like manual materials handling. Repetitive lumbar flexion superseding 80% of healthy range of motion, has been accepted as a risk factor for low back disorders (LBD) and low back pain (LBP). Evidence suggests that passive tissues in the lumbar spine are quintessential to maintaining spine function and preventing injury. At near-maximal lumbar flexion, the passive tissues in the lumbar spine produce sufficient tension and counter-moment to the upper body where the lumbar erector spinae musculature enter a period of myoelectric silence. This neuromechanical event is termed flexion-relaxation (FR). Throughout bouts of repetitive lifting, the lumbar angle at which FR onset occurs increases. Therefore, change in FR onset angle has been used as a metric to quantify changes in passive tissues as a surrogate measure for creep deformation and increase in injury risk. High lifting load and lift frequency are factors that cause changes in passive tissue mechanics during repetitive lifting tasks. The goal of this thesis was to investigate the effect of task design on the FR onset angle in the lumbar spine in two external load-matched tasks. Condition 1 involved 75 cycles of lifting 13 kg at a rate of 1 lift per minute while Condition 2 involved 150 cycles of lifting 6.5 kg at a rate of 2 lifts per minute. 20 participants (10 male, 10 female) were included in this investigation. Males showed greater changes in FR onset angle relative to females in Condition 2. Similar trends are seen in changes in peak lumbar flexion angle during lifting, but these differences were not found to be significant. Peak L₅/S₁ compression force and net joint moment were greater in males than females in both conditions and overall, Condition 1 imposed greater L₅/S₁ loading than Condition 2. Peak L₅/S₁ shear forces were greater in males than females in Condition 1. These finding suggest task design within repetitive lifting tasks may be sensitive to sex differences and task parameters of external load-matched task designs may have an influence on loa back injury risk via changes in passive tissue mechanics.
Item Metadata
| Title |
Exploring the effects of task design on the flexion-relaxation phenomenon in the lumbar spine during repetitive lifting
|
| Creator | |
| Supervisor | |
| Publisher |
University of British Columbia
|
| Date Issued |
2024
|
| Description |
Repetitive forward flexion of the lumbar spine is involved with occupations like manual materials
handling. Repetitive lumbar flexion superseding 80% of healthy range of motion, has been
accepted as a risk factor for low back disorders (LBD) and low back pain (LBP). Evidence suggests that passive tissues in the lumbar spine are quintessential to maintaining spine function and preventing injury. At near-maximal lumbar flexion, the passive tissues in the lumbar spine produce sufficient tension and counter-moment to the upper body where the lumbar erector spinae musculature enter a period of myoelectric silence. This neuromechanical event is termed flexion-relaxation (FR).
Throughout bouts of repetitive lifting, the lumbar angle at which FR onset occurs increases.
Therefore, change in FR onset angle has been used as a metric to quantify changes in passive
tissues as a surrogate measure for creep deformation and increase in injury risk. High lifting load
and lift frequency are factors that cause changes in passive tissue mechanics during repetitive
lifting tasks. The goal of this thesis was to investigate the effect of task design on the FR onset
angle in the lumbar spine in two external load-matched tasks. Condition 1 involved 75 cycles of
lifting 13 kg at a rate of 1 lift per minute while Condition 2 involved 150 cycles of lifting 6.5 kg
at a rate of 2 lifts per minute. 20 participants (10 male, 10 female) were included in this
investigation.
Males showed greater changes in FR onset angle relative to females in Condition 2. Similar
trends are seen in changes in peak lumbar flexion angle during lifting, but these differences were
not found to be significant. Peak L₅/S₁ compression force and net joint moment were greater in
males than females in both conditions and overall, Condition 1 imposed greater L₅/S₁ loading
than Condition 2. Peak L₅/S₁ shear forces were greater in males than females in Condition 1.
These finding suggest task design within repetitive lifting tasks may be sensitive to sex
differences and task parameters of external load-matched task designs may have an influence on
loa back injury risk via changes in passive tissue mechanics.
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| Genre | |
| Type | |
| Language |
eng
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| Date Available |
2025-01-13
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| Provider |
Vancouver : University of British Columbia Library
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| Rights |
Attribution-NonCommercial-NoDerivatives 4.0 International
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| DOI |
10.14288/1.0447751
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| URI | |
| Degree | |
| Program | |
| Affiliation | |
| Degree Grantor |
University of British Columbia
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| Graduation Date |
2025-05
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| Campus | |
| Scholarly Level |
Graduate
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| Rights URI | |
| Aggregated Source Repository |
DSpace
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Rights
Attribution-NonCommercial-NoDerivatives 4.0 International