Short Interventions to Prevent Trapezius Muscle Fatigue in Computer Work

Not Applicable

Completed

• Conditions: Muscle Fatigue; Trapezius Muscle Strain
• Interventions: Behavioral: interruptions of work tasks

• Registration Number: NCT03863340
• Lead Sponsor: Swiss Federal Institute of Technology

Brief Summary

This study is expected to demonstrate that during experimental days of seated computer work sustained and focalized low-level muscle activity contributes to the development of long-lasting fatigue effects (and thus possible disorder). On days with and without frequent interruptions, signs of fatigue and the activity pattern of the trapeze muscle are registered and compared using electromyographic registrations of the trapezius muscle.

Detailed Description

30 healthy adults without chronic neck pain participated in a laboratory study designed to simulate two full workdays of computer work. Within each session, participants performed five 50-min working activities separated by 10-min breaks: i) Use a computer keyboard to type a text presented on the left side of the screen; ii) do the typing task with the desk height set10 cm above elbow height; iii) play the computer game Spider Solitaire implemented in Windows 10; iv) Stroop test (This test consists of reading the name of a color whose text is in a color different from the name. The color name was then selected from a multiple-choice panel displaying color names; v) the same online puzzle game was presented to all participants. Assembling the puzzle was performed by drag and drop actions. The work periods were not disrupted (on the "control day") whereas two short interruptions of 5-min were introduced at 1/3 and 2/3 of each working period on the "intervention day". During these interruptions, participants were asked to perform "muscle disrupting/relaxing" activities. For each experimental session a 30-min lunch break took place between the third and the fourth work periods. The specific sequence of work activity type and disrupting/relaxing activities was randomized across participants; however, for each participant the order of work activities remained the same for the two experimental sessions (control and intervention days). The order of control and intervention days was also randomized between participants.

A set of six measures were performed at specific time intervals during each experiment: before the first work activity, before and after lunch, immediately and 1 hour after the fifth (last) work activity: i) upper trapezius activation, assessed through the temporal EMG profile recorded by a single bipolar signal; and ii) through the spatio-temporal distribution of EMG activity detected by a 2D array of electrodes (64 channels); iii) muscle fatigue, quantified by changes in electrically induced muscle twitch force signals, iv) isometric performance, v) dynamic performance; iii) cognitive and physical load and stress level. In addition, personality traits (anxiety level), perceived workload and musculoskeletal symptoms were evaluated as covariates.

Study Timeline

• Study Start: 2016-03-14
• Primary Completion: 2016-09-05
• Study Completion: 2016-09-05
• Study First Submitted: 2018-12-14
• Status Verified: 2019-02
• Study First Submitted QC: 2019-03-01
• Last Update Submitted: 2019-03-01
• Study First Posted: 2019-03-05
• Last Update Posted: 2019-03-05

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 30

Inclusion Criteria

• healthy experienced computer workers

Exclusion Criteria

• chronic pain (more than 30 days within the last 12 months according to the Nordic Questionnaire (Kuorinka et al 1987);
• pathologies of the neck,
• prior and actual shoulder or neck pain caused by an accident,
• skin disease in the neck or shoulder area,
• BMI > 30,
• sleep disorders (e.g. apnea, restless legs syndrome),
• use of medications such as psychotropic drugs, muscle relaxants or analgesics within the last 3 days prior to the experiment,
• pregnancy.
• any shoulder/neck pain on the day before the experiment.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SEQUENTIAL

Arm && Interventions

Group	Intervention	Description
short interruptions of work tasks	interruptions of work tasks	randomly start with or without short interruptions on the first experimental day and without or with them on the second experimental day

Primary Outcome Measures

Name	Time	Method
EMG profile recorded by a single bipolar electrode: Rest-time	Continuously from the beginning to 370 min (end) of the simulated working activity of both the control and intervention day	Rest-time (percentage of time below 5% of the standard activity level). The percentage of registration time without any rest time is called sustained low level muscle activity.
Spatio-temporal distribution of EMG activity: Area of muscle activity	Continuously from the beginning to 370 min (end) of the simulated working activity of both the control and intervention day	The spatio-temporal distribution of EMG activity is detected by a 2D array of electrodes (64 channels) and the following outcomes are determined: Area of muscle active region (n. of channels)
Muscle fatigue: Change of dynamic force control accuracy	Change between 30 min before the beginning of the simulated working activity and 30 min after the end of the simulated working activity of both the control and intervention day	Force control accuracy (mean squared error between the produced force (N) and the target force (N)) in an isometric dynamic tracking task
Muscle fatigue: Change of muscle twitch	Change between 30 min before the beginning of the simulated working activity and 30 min after the end of the simulated working activity of both the control and intervention day	3-D muscle twitch acceleration pattern measured at the acromion

Secondary Outcome Measures

Name	Time	Method
Spatio-temporal distribution of EMG activity: Magnitude of activity	Continuously from the beginning to 370 min (end) of the simulated working activity of both the control and intervention day	The spatio-temporal distribution of EMG activity is detected by a 2D array of electrodes (64 channels) and the following outcomes are determined: Magnitude of activity of muscle active regions (RMS sEMG).
Muscle fatigue: Change of static force control	Change between 30 min before the beginning of the simulated working activity and 30 min after the end of the simulated working activity of both the control and intervention day	Force control accuracy (mean squared error between the produced force (N) and the target force (N)) in isometric isotonic low level contraction
EMG profile recorded by a single bipolar electrode: Static activity	Continuously from the beginning to 370 min (end) of the simulated working activity of both the control and intervention day	p10 (level of the 10th percentile of the trapezius muscle activity) as an indicator of static activity primarily associated with continuous activity of the same pool of motor units.
Spatio-temporal distribution of EMG activity: Number of active epochs	Continuously from the beginning to 370 min (end) of the simulated working activity of both the control and intervention day	The spatio-temporal distribution of EMG activity is detected by a 2D array of electrodes (64 channels) and the following outcomes are determined: Number of active epochs
Muscle fatigue: Change of force control in ramp contraction	Change between 30 min before the beginning of the simulated working activity and 30 min after the end of the simulated working activity of both the control and intervention day	Force control accuracy (mean squared error between the produced force (N) and the target force (N)) in isometric ramp contraction.