An overview of strategies to reduce whole-body vibration exposure on drivers: A systematic review

Musculoskeletal disorders (MSD) at the workplace cost a lot. These MSD, low back pain in particular, can be caused by exposure to whole body vibration (WBV). Preventive strategies to reduce vibration exposure may contribute to a decrease in MSD. Therefore the aim of this study was to explore which evidence-based preventive strategies reduce vibration exposure on drivers. A systematic literature search was performed using the following key words and synonyms: Whole body vibration, occupational, and prevention. Preliminary, inclusion and selection criteria were defined. 37 studies were included: 15 laboratory studies, 17 field studies, 4 laboratory/field studies and 1 intervention study. Only one, the intervention study, described an intervention strategy to reduce WBV exposure in the workplace. All other studies only presented factors that have effects on vibration exposure. These factors are categorized into two different categories: (1) design considerations and (2) skills and behavior. Most studies focus on factors within category (1) while factors within category (2) may be promising as well, as these factors are often less expensive and more easy to implement. Factors from both categories should be combined in preventive strategies as there is a lack of evidence of effective preventive strategies to reduce vibration exposure on drivers. This might lead to a decrease in the incidence of low back pain due to exposure to whole body vibration.

[1]  Jacques Malchaire,et al.  VIBRATION EXPOSURE ON FORK-LIFT TRUCKS , 1996 .

[2]  Per-Anders Hansson,et al.  Optimization of agricultural tractor cab suspension using the evolution method , 1995 .

[3]  Pierre Lemerle,et al.  A SIMPLIFIED METHOD TO DESIGN SUSPENDED CABS FOR COUNTERBALANCE TRUCKS , 2002 .

[4]  S. Sankar,et al.  Design and testing of lateral seat suspension for off-road vehicles , 1993 .

[5]  Subhash Rakheja,et al.  Vibration attenuation performance of suspension seats for off-road forestry vehicles. , 1990 .

[6]  P Swuste,et al.  The effect of seat suspension on exposure to whole-body vibration of professional drivers. , 1993, The Annals of occupational hygiene.

[7]  Mothiram K. Patil,et al.  Minimization of human body responses to low frequency vibration: Application to tractors and trucks , 1985 .

[8]  Bernardus Willems,et al.  Effect of Operator Seat Design on Vibration Exposure , 1996 .

[9]  M Pope,et al.  The effect of posture and seat suspension design on discomfort and back muscle fatigue during simulated truck driving. , 1994, Applied ergonomics.

[10]  Tammy R Eger,et al.  Predictors of whole-body vibration exposure experienced by highway transport truck operators , 2004, Ergonomics.

[11]  C L Zimmermann,et al.  Effects of vibration frequency and postural changes on human responses to seated whole-body vibration exposure , 1997, International archives of occupational and environmental health.

[12]  E. Yano,et al.  Intervention for prevention of low back pain in Japanese forklift workers. , 2001, American journal of industrial medicine.

[13]  C. Leboeuf‐Yde,et al.  Whole-body vibration and low back pain: a systematic, critical review of the epidemiological literature 1992–1999 , 2000, International archives of occupational and environmental health.

[14]  M Magnusson,et al.  Effect of backrest inclination on the transmission of vertical vibrations through the lumbar spine. , 1993, Clinical biomechanics.

[15]  D. R. Huston,et al.  Vibration Attenuating Characteristics of Air Filled Seat Cushions , 1999 .

[16]  Herman Ramon,et al.  Comfort improvement of a nonlinear suspension using global optimization and in situ measurements , 2005 .

[17]  Barbara Hinz,et al.  EFFECTS RELATED TO RANDOM WHOLE-BODY VIBRATION AND POSTURE ON A SUSPENDED SEATWITH AND WITHOUT BACKREST , 2002 .

[18]  H Anttonen,et al.  Whole body vibration and the snowmobile. , 1994, Arctic medical research.

[19]  Mike Kolich,et al.  Automotive seating: the effect of foam physical properties on occupied vertical vibration transmissibility , 2005 .

[20]  J T Dennerlein,et al.  Predictors of whole-body vibration levels among urban taxi drivers. , 2003, Ergonomics.

[21]  Ivo Hostens,et al.  Descriptive analysis of combine cabin vibrations and their effect on the human body , 2003 .

[22]  L M Sherwin,et al.  Influence of tyre inflation pressure on whole-body vibrations transmitted to the operator in a cut-to-length timber harvester. , 2004, Applied ergonomics.

[23]  Per-Anders Hansson PM—Power and Machinery: Working Space Requirement for an Agricultural Tractor Axle Suspension , 2002 .

[24]  Börje Rehn,et al.  Variation in exposure to whole-body vibration for operators of forwarder vehicles - aspects on measurement strategies and prevention , 2005 .

[25]  E Rytkönen,et al.  Whole-body vibration of locomotive engineers. , 1999, American Industrial Hygiene Association journal.

[26]  Marc J. Richard,et al.  Safety and comfort analysis of a 3-D vehicle model with optimal non-linear active seat suspension , 2006 .

[27]  Herman Ramon,et al.  Improvement of vibrational comfort on agricultural vehicles by passive and semi-active cabin suspensions , 2005 .

[28]  Miroslav Demić,et al.  SOME ASPECTS OF THE INVESTIGATION OF RANDOM VIBRATION INFLUENCE ON RIDE COMFORT , 2002 .

[29]  F. Guillon,et al.  VERTICAL VIBRATION TRANSMISSION THROUGH THE LUMBAR SPINE OF THE SEATED SUBJECT—FIRST RESULTS , 1998 .

[30]  Bernardus Willems,et al.  Effect of subway car design on vibration exposure , 1997 .

[31]  Mothiram K. Patil,et al.  A mathematical model of tractor-occupant system with a new seat suspension for minimization of vibration response , 1988 .

[32]  Kazushi Taoda,et al.  A DECADE OF IMPROVEMENT IN WHOLE-BODY VIBRATION AND LOW BACK PAIN FOR FREIGHT CONTAINER TRACTOR DRIVERS , 1998 .

[33]  G. Waddell,et al.  Occupational health guidelines for the management of low back pain at work: evidence review. , 2001, Occupational medicine.

[34]  J Malchaire,et al.  Technical characteristics of overhead cranes influencing the vibration exposure of the operators. , 1992, Applied ergonomics.

[35]  Eckardt Johanning,et al.  Whole-body vibration exposure study in U.S. railroad locomotives--an ergonomic risk assessment. , 2002, AIHA journal : a journal for the science of occupational and environmental health and safety.

[36]  B Willems,et al.  Whole-body vibration exposure: a comprehensive field study. , 1994, American Industrial Hygiene Association journal.

[37]  M J Griffin,et al.  The transmission of translational seat vibration to the head--I. Vertical seat vibration. , 1988, Journal of biomechanics.

[38]  Michael J. Griffin,et al.  Effect of seating on exposures to whole-body vibration in vehicles , 2002 .

[39]  M. Bovenzi,et al.  An updated review of epidemiologic studies on the relationship between exposure to whole-body vibration and low back pain (1986–1997) , 1999, International archives of occupational and environmental health.

[40]  Örjan Johansson,et al.  The Effect of Seat Design on Vibration Comfort , 2003, International journal of occupational safety and ergonomics : JOSE.