In search of a representative sample of residential building work.

Most research investigating injuries in construction work is limited by reliance on work samples unrepresentative of the multiple, variable-cycle tasks involved, resulting in incomplete characterisation of ergonomic exposures. In this case study, a participatory approach was used including hierarchical task analysis and site observations of a typical team of house builders in New Zealand, over several working days, to obtain a representative work sample. The builders' work consisted of 14 goal-defined jobs using varying subsets of 15 task types, each taking from less than 1 s to more than 1 h and performed in a variety of postures. Task type and duration varied within and between participants and days, although all participants spent at least 25% of the time moving from place to place, mostly carrying materials, and more than half the time either reaching up or bending down to work. This research has provided a description of residential building work based on a work sample more nearly representative than those previously published and has demonstrated a simple, low-cost but robust field observation method that can provide a valid basis for further study of hazard exposures.

[1]  Ted Miller,et al.  Costs of occupational injuries in construction in the United States. , 2007, Accident; analysis and prevention.

[2]  John Rosecrance,et al.  The effects of error management climate and safety communication on safety: a multi-level study. , 2010, Accident; analysis and prevention.

[3]  Alain Delisle,et al.  The effect of sampling frequency on EMG measures of occupational mechanical exposure. , 2005, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[4]  S E Mathiassen,et al.  Quantifying variation in physical load using exposure-vs-time data. , 1991, Ergonomics.

[5]  R Kadefors,et al.  Assessment of workload and arm position during different work sequences: a study with portable devices on construction workers. , 1999, Applied ergonomics.

[6]  Laura Punnett,et al.  Work routinization and implications for ergonomic exposure assessment , 2006, Ergonomics.

[7]  O Karhu,et al.  Correcting working postures in industry: A practical method for analysis. , 1977, Applied ergonomics.

[8]  L Punnett,et al.  Validity of fixed-interval observations for postural assessment in construction work. , 2001, Applied ergonomics.

[9]  F MolenvanderH.,et al.  Ergonomics in building and construction: Time for implementation [editorial] , 2005 .

[10]  Hoi K. Suen,et al.  The use of momentary time sampling to assess both frequency and duration of behavior , 1983 .

[11]  Svend Erik Mathiassen,et al.  Efficient one-day sampling of mechanical job exposure data--a study based on upper trapezius activity in cleaners and office workers. , 2003, AIHA journal : a journal for the science of occupational and environmental health and safety.

[12]  R. Haslam Targeting ergonomics interventions--learning from health promotion. , 2002, Applied ergonomics.

[13]  Svend Erik Mathiassen,et al.  The ability of limited exposure sampling to detect effects of interventions that reduce the occurrence of pronounced trunk inclination. , 2010, Applied ergonomics.

[14]  Svend Erik Mathiassen,et al.  Job enlargement and mechanical exposure variability in cyclic assembly work , 2004, Ergonomics.

[15]  B Buchholz,et al.  Emerging participatory approaches to ergonomic interventions in the construction industry. , 1996, American journal of industrial medicine.

[16]  Gary Davis,et al.  Developing Ergonomic Controls in the Construction Industry for Regulatory Compliance , 2001 .

[17]  S. Mathiassen,et al.  On the evolution of task-based analysis of manual materials handling, and its applicability in contemporary ergonomics. , 2006, Applied ergonomics.

[18]  P. Vink,et al.  Positive outcomes of participatory ergonomics in terms of greater comfort and higher productivity. , 2006, Applied ergonomics.

[19]  K. D. Duncan,et al.  TASK ANALYSIS AND TRAINING DESIGN. , 1967 .

[20]  Judith K Sluiter,et al.  Efficacy of adjusting working height and mechanizing of transport on physical work demands and local discomfort in construction work , 2004, Ergonomics.

[21]  Bryan Buchholz,et al.  Physical ergonomic hazards in highway tunnel construction: overview from the Construction Occupational Health Program. , 2011, Applied ergonomics.

[22]  A Kilbom,et al.  Work technique and its consequences for musculoskeletal disorders. , 1987, Ergonomics.

[23]  Thomas M Cook,et al.  Method for quantitatively assessing physical risk factors during variable noncyclic work. , 2003, Scandinavian journal of work, environment & health.

[24]  Peter Hoonakker,et al.  The effect of safety initiatives on safety performance: a longitudinal study. , 2005, Applied ergonomics.

[25]  S H Snook,et al.  Perceived exertion and discomfort associated with driving screws at various work locations and at different work frequencies. , 1993, Ergonomics.

[26]  Tim Bentley,et al.  The role of latent and active failures in workplace slips, trips and falls: an information processing approach. , 2009, Applied ergonomics.

[27]  Andrew Shepherd,et al.  Hierarchical task analysis , 2001 .

[28]  O Karhu,et al.  Observing working postures in industry: Examples of OWAS application. , 1981, Applied ergonomics.

[29]  S. Kumar,et al.  Theories of musculoskeletal injury causation , 2001, Ergonomics.

[30]  I Astrand,et al.  Degree of strain during building work as related to individual aerobic work capacity. , 1967, Ergonomics.

[31]  A R Duff,et al.  Contributing factors in construction accidents. , 2005, Applied ergonomics.

[32]  Tahira M Probst,et al.  Accident under-reporting among employees: testing the moderating influence of psychological safety climate and supervisor enforcement of safety practices. , 2010, Accident; analysis and prevention.

[33]  Svend Erik Mathiassen,et al.  Diversity and variation in biomechanical exposure: what is it, and why would we like to know? , 2006, Applied ergonomics.

[34]  Steven Hecker,et al.  A participatory ergonomics intervention to reduce risk factors for low-back disorders in concrete laborers. , 2004, Applied ergonomics.

[35]  S E Mathiassen,et al.  Physiological comparison of three interventions in light assembly work: reduced work pace, increased break allowance and shortened working days , 1996, International archives of occupational and environmental health.

[36]  R. Rubin Propagation of Longitudinal Deformation Waves in a Prestressed Rod of Material Exhibiting a Strain‐Rate Effect , 1954 .

[37]  A Bhattacharya,et al.  Development and evaluation of a microprocessor-based ergonomic dosimeter for evaluating carpentry tasks. , 1999, Applied ergonomics.

[38]  E A Koningsveld,et al.  History and future of ergonomics in building and construction. , 1997, Ergonomics.

[39]  Judy Village,et al.  Assessing attitudes, beliefs and readiness for musculoskeletal injury prevention in the construction industry. , 2010, Applied ergonomics.

[40]  Stephen W. Marshall,et al.  Factors affecting work-related injury among forestry workers: A review , 1993 .

[41]  Victor Paquet,et al.  Reliable exposure assessment strategies for physical ergonomics stressors in construction and other non-routinized work , 2005, Ergonomics.

[42]  Sm Rowlinson,et al.  Causes of Accidents in the Construction Industry in Hong Kong , 1998 .

[43]  L Punnett,et al.  PATH: a work sampling-based approach to ergonomic job analysis for construction and other non-repetitive work. , 1996, Applied ergonomics.

[44]  Chia-Fen Chi,et al.  Accident patterns and prevention measures for fatal occupational falls in the construction industry. , 2005, Applied ergonomics.