Musculoskeletal disorders (MSDs) are among the most common occupational health problems and are closely associated with ergonomic risk factors in the workplace. Different occupational roles expose workers to distinct biomechanical and postural demands, which may influence musculoskeletal health in different ways. Field-based (blue-collar) work is typically characterized by physical workload and repetitive movements, whereas office-based (white-collar) work mainly involves prolonged sitting and static postures. This cross-sectional comparative study aims to evaluate and compare musculoskeletal characteristics and ergonomic risk levels between blue-collar and white-collar workers employed in the same industrial setting. Full-time employees aged 18-65 years who have been working in the same factory for at least two years are included. Outcomes include muscle strength, joint range of motion, ergonomic risk assessed using the Rapid Entire Body Assessment (REBA), musculoskeletal complaints, body awareness, health-related quality of life, and anxiety levels. Objective measurements and validated self-report questionnaires are used. Following baseline assessment, individualized ergonomic and exercise-based recommendations are provided as part of a workplace health promotion approach. Participant satisfaction and perceived ergonomic awareness are descriptively evaluated after eight weeks. The findings aim to support occupation-specific ergonomic risk assessment and preventive strategies in industrial work environments.
Study Type
OBSERVATIONAL
Enrollment
40
This intervention consists of individualized ergonomic and exercise-based recommendations provided following assessment. The content includes education on optimal working postures, workstation and task-related ergonomic principles, avoidance of prolonged static positions, safe manual handling techniques, and brief workplace-appropriate exercises aimed at promoting musculoskeletal health. The recommendations are delivered as part of a workplace health promotion and awareness approach and are not designed as a therapeutic or experimental intervention. No objective outcome-based effectiveness analysis is conducted.
İstinye Üniversitesi
Istanbul, Turkey (Türkiye)
Joint Range of Motion
Active joint range of motion (ROM) of the cervical spine, lumbar spine, and upper and lower extremities was measured using a universal goniometer (Hawker et al., 2011).
Time frame: Baseline (single time point)
Muscle Strength
Hand grip strength was measured using a Jamar hand dynamometer, positioned according to the recommendations of the American Society of Hand Therapists (Mathiowetz et al., 1985). Isometric muscle strength of the deltoid, biceps brachii, triceps brachii, quadriceps, and hamstring muscle groups was assessed using a Lafayette handheld dynamometer (Mentiplay et al., 2015). Three maximal contraction trials were performed for each muscle group and hand grip strength, and the highest value obtained was recorded.
Time frame: Baseline (single time point)
Muscle Flexibility
Lumbar extensor, hamstring, and gastrosoleus muscle flexibility were evaluated using the sit-and-reach test. The distance between the middle fingertip and the testing surface was recorded in centimeters (Otman et al., 2003).
Time frame: Baseline (single time point)
Musculoskeletal Complaints
Musculoskeletal symptoms were assessed using the Cornell Musculoskeletal Discomfort Questionnaire (CMDQ), a validated self-report instrument that evaluates the presence, frequency, and severity of musculoskeletal discomfort across multiple body regions. The questionnaire also captures the extent to which discomfort interferes with work performance. Scores are calculated based on frequency, severity, and work interference multipliers, allowing region-specific and total discomfort scores to be derived. Higher scores indicate greater musculoskeletal burden (Hedge et al., 1999). The Turkish version has demonstrated established validity and reliability (Erdinc et al., 2011). In the statistical analyses, the total CMDQ score, reflecting overall musculoskeletal discomfort burden, was used.
Time frame: Baseline (single time point)
Ergonomic Risk Assessment
Ergonomic Risk Assessment: Ergonomic risk was evaluated using the Rapid Entire Body Assessment (REBA) method, an observational tool designed to assess whole-body postural risk associated with work tasks. REBA systematically scores trunk, neck, leg, and upper extremity positions, as well as load/force and coupling factors, generating a composite score that categorizes ergonomic risk into different action levels. Higher REBA scores indicate greater postural risk and the need for more urgent ergonomic intervention. Both static and dynamic working postures were directly observed and analyzed in the actual workplace environment. Observations were conducted by the same trained assessor to ensure consistency (Hignett \& McAtamney, 2000\[HÇ).
Time frame: Baseline (single time point)
Quality of Life Assessment
Health-related quality of life was measured using the Short Form-36 (SF-36), a widely used generic instrument consisting of eight subdomains: physical functioning, role limitations due to physical health, bodily pain, general health perception, vitality, social functioning, role limitations due to emotional problems, and mental health. Subscale scores range from 0 to 100, with higher scores representing better perceived health status (Ware \& Sherbourne 1992). The Turkish version has demonstrated established validity and reliability (Koçyiğit et al., 1999).
Time frame: Baseline (single time point)
Anxiety Assessment
Anxiety levels were assessed using the Beck Anxiety Inventory (BAI), a 21-item self-report questionnaire designed to measure the severity of anxiety symptoms. Each item is rated on a 4-point Likert scale (0-3), yielding a total score ranging from 0 to 63. Higher scores reflect greater anxiety severity (Beck et al., 1988). The Turkish version has demonstrated established validity and reliability (Ulusoy et al., 1998). The instrument has been widely used in both clinical and occupational populations.
Time frame: Baseline (single time point)
Body Awareness Assessment
Body awareness was evaluated using the Body Awareness Questionnaire (BAQ), which measures an individual's sensitivity to normal bodily processes and internal physiological signals. The scale includes items rated on a Likert-type format, with higher total scores indicating greater body awareness (Shields et al., 1989). The Turkish version has demonstrated established validity and reliability (Karaca et al., 2021). This construct is particularly relevant in occupational settings, as heightened body awareness may influence early recognition of musculoskeletal strain and adaptive behavior
Time frame: Baseline (single time point)
Evaluation of Satisfaction and Awareness
A structured questionnaire was developed to assess participants' satisfaction with the educational components and perceived awareness. Participants rated their satisfaction with posture education, ergonomic training, exercise instruction, and information regarding musculoskeletal conditions on a 0-5 scale. Baseline knowledge regarding ergonomics, work posture, workstation organization, and preventive exercises was assessed prior to education. The same items were re-administered after eight weeks to evaluate perceived changes in awareness. The questionnaire included items related to recognition of potential musculoskeletal risks, ability to identify appropriate working postures, knowledge of ergonomic adjustments, and understanding of preventive exercises. This evaluation aimed to describe perceived satisfaction and awareness changes rather than to determine objective clinical effectiveness.
Time frame: 8 weeks after baseline assessment
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