Dose-response relationship between exposure to hand-arm vibration and health effects among metalworkers.

OBJECTIVES The aim of this study was to explore the relationship of exposure to hand-arm vibration (HAV) and vascular, sensorineural and musculoskeletal symptoms and symptoms of carpal tunnel syndrome (CTS) in a population of Finnish metalworkers. METHODS A questionnaire on HAV exposure and symptoms was sent to 530 metalworkers. Those who reported finger blanching, numbness or tingling of the fingers or symptoms of CTS were invited to further examinations (n = 133). Their cumulative lifelong exposure to HAV, the level of current exposure and the history of use of tools causing impulse vibration were evaluated. The association of different symptoms with the HAV exposure was assessed with logistic regression analyses adjusted for age and smoking. The vibration perception thresholds (VPTs) were tested according to ISO 13091-1:2001. RESULTS The cumulative exposure index varied between 0 and 115,000 m(2) years d s(-4), the mean being 20,591 m(2) years d s(-4). The average of current daily vibration exposure was 1.6 m s(-2) and 39% of the participants had a history of exposure to impulse vibration. Of the respondents, 49% reported white fingers, 66% neurosensory symptoms, 56% symptoms of CTS and 75% musculoskeletal symptoms. The cumulative exposure index was associated with symptoms of white fingers [odds ratio (OR) 2.4-4.5], with symptoms of CTS (OR 4.6-6.1), with neurosensory symptoms (OR 5.7-17.3) and with musculoskeletal symptoms (OR 4.7-5.4). The risk of all these symptoms increased as the cumulative vibration dose increased. The history of exposure to impulse vibration had a significant effect on the occurrence of neurosensory symptoms (P = 0.024). The current exposure to HAV correlated significantly with all of the above-mentioned symptoms. The results of the VPT test were associated with the level of cumulative exposure to HAV. CONCLUSIONS There seems to be a dose-response relationship between the cumulative lifetime vibration dose of the HAV and finger blanching, sensorineural symptoms, symptoms of CTS and musculoskeletal symptoms of upper limbs and neck in the group of metalworkers of the study. The risk for neurosensory symptoms was the most significantly related to exposure to HAV and also to impulse vibration. Further studies are needed to confirm the present results also in other occupational groups taking into account the possible synergistic effect of workload as well.

[1]  Esko Toppila,et al.  Hand-arm vibration syndrome with use of anti-vibration chain saws: 19-year follow-up study of forestry workers , 2006, International archives of occupational and environmental health.

[2]  M. Hagberg,et al.  Musculoskeletal symptoms among young male workers and associations with exposure to hand–arm vibration and ergonomic stressors , 2008, International archives of occupational and environmental health.

[3]  Michael J. Griffin,et al.  Handbook of Human Vibration , 1990 .

[4]  H. Virokannas Dose-response relation between exposure to two types of hand-arm vibration and sensorineural perception of vibration. , 1995, Occupational and environmental medicine.

[5]  H. Iwata,et al.  A study on the vibration-dose limit for Japanese workers exposed to hand-arm vibration. , 1992, Industrial health.

[6]  M Bovenzi,et al.  Hand-arm vibration syndrome and dose-response relation for vibration induced white finger among quarry drillers and stonecarvers. Italian Study Group on Physical Hazards in the Stone Industry. , 1994, Occupational and environmental medicine.

[7]  G Gemne,et al.  Evaluation of the white finger risk prediction model in ISO 5349 suggests need for prospective studies. , 1996, Central European journal of public health.

[8]  G. Lundborg,et al.  Neurophysiological Findings in Vibration-Exposed Male Workers , 1999, Journal of hand surgery.

[9]  Mats Hagberg,et al.  Clinical assessment of musculoskeletal disorders in workers exposed to hand-arm vibration , 2002, International archives of occupational and environmental health.

[10]  M J Griffin,et al.  Dose-response patterns for vibration-induced white finger , 2003, Occupational and environmental medicine.

[11]  J Starck,et al.  High impulse acceleration levels in hand-held vibratory tools. An additional factor in the hazards associated with the hand-arm vibration syndrome. , 1984, Scandinavian journal of work, environment & health.

[12]  David Coggon,et al.  Carpal tunnel syndrome and its relation to occupation: a systematic literature review. , 2006, Occupational medicine.

[13]  L. Petronio,et al.  Epidemiological survey of shipyard workers exposed to hand-arm vibration , 1980, International archives of occupational and environmental health.

[14]  Jaehoon Roh,et al.  Quantitative exposure assessment for shipyard workers exposed to hand-transmitted vibration from a variety of vibration tools. , 2002, AIHA journal : a journal for the science of occupational and environmental health and safety.

[15]  G. Lundborg,et al.  Structural nerve changes at wrist level in workers exposed to vibration. , 1997, Occupational and environmental medicine.

[16]  Heinrich Dupuis,et al.  Acute effects of shock-type vibration transmitted to the hand-arm system , 1984, International archives of occupational and environmental health.

[17]  M. Hagberg,et al.  Vibrotactile perception sensitivity and its relation to hand-arm vibration exposure. , 1995, Central European Journal of Public Health.

[18]  Michael J Griffin,et al.  Normal values for thermotactile and vibrotactile thresholds in males and females , 2008, International archives of occupational and environmental health.

[19]  M Hagberg,et al.  Shoulder tendinitis and its relation to heavy manual work and exposure to vibration. , 1993, Scandinavian journal of work, environment & health.

[20]  Massimo Bovenzi,et al.  Exposure-response relationship in the hand-arm vibration syndrome: an overview of current epidemiology research , 1998, International archives of occupational and environmental health.

[21]  Kathleen Hartford,et al.  Work-related cumulative trauma disorders of the upper extremity: navigating the epidemiologic literature. , 2002, American journal of industrial medicine.

[22]  M. Hagberg,et al.  Hand-arm symptoms related to impact and nonimpact hand-held power tools , 1997, International archives of occupational and environmental health.

[23]  Pietro Nataletti,et al.  Work-related disorders of the upper limb in female workers using orbital sanders , 2005, International archives of occupational and environmental health.

[24]  P L Pelmear,et al.  The Stockholm Workshop scale for the classification of cold-induced Raynaud's phenomenon in the hand-arm vibration syndrome (revision of the Taylor-Pelmear scale). , 1987, Scandinavian journal of work, environment & health.

[25]  R Lundström,et al.  Tissue Displacement Is a Causative Factor in Vibration-Induced Muscle Injury , 1996, Journal of hand surgery.

[26]  H. Inskip,et al.  Symptoms of hand-arm vibration syndrome in gas distribution operatives. , 1998, Occupational and environmental medicine.

[27]  M. J. Smith,et al.  Comparison of self-reported and expert-observed physical activities at work in a general population. , 1998, American journal of industrial medicine.

[28]  M J Griffin,et al.  Validity of self reported occupational exposures to hand transmitted and whole body vibration , 2000, Occupational and environmental medicine.

[29]  Tohr Nilsson,et al.  Hand-arm vibration syndrome (HAVS) and musculoskeletal symptoms in the neck and the upper limbs in professional drivers of terrain vehicles--a cross sectional study. , 2006, Applied ergonomics.

[30]  D Norbäck,et al.  Carpal tunnel syndrome (CTS) and exposure to vibration, repetitive wrist movements, and heavy manual work: a case-referent study. , 1989, British journal of industrial medicine.