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International Archives of Occupational and Environmental Health
Erschienen in: International Archives of Occupational and Environmental Health 1/2019

01.10.2018 | Original Article

Risk assessment of vascular disorders by a supplementary hand–arm vascular weighting of hand-transmitted vibration

verfasst von: Massimo Bovenzi, Iole Pinto, Francesco Picciolo

Erschienen in: International Archives of Occupational and Environmental Health | Ausgabe 1/2019

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Abstract

Purpose

To provide an updated epidemiological validation for a supplementary method for assessing the risk of vascular disorders from hand-transmitted vibration.

Methods

The occurrence of vibration-induced white finger (VWF) in the vibration-exposed workers of the Italian cohort of the EU VIBRISKS study was related to measures of daily vibration exposure expressed in terms of r.m.s. acceleration magnitude normalised to an 8-h day, frequency weighted according to either the frequency weighting Wh defined in international standard ISO 5349-1:2001 [Ah(8) in ms− 2] or the hand–arm vascular frequency weighting Wp proposed in the ISO technical report (TR) 18570:2017 [Ap(8) in ms− 2]. To estimate a threshold value for vascular hand–arm vibration risk, the Wp-weighted vibration exposure value Ep,d (in ms− 1.5) was calculated according to the ISO/TR document. The difference in the predictions of VWF between the exposure measures calculated with the frequency weightings Wh or Wp was investigated by means of logistic modelling.

Results

Measures of daily vibration exposure constructed with the frequency weighting Wp [Ap(8) and Ep,d], which gives more importance to intermediate- and high-frequency vibration, were better predictors of the occurrence of VWF in the vibration-exposed workers than the metric derived from the conventional ISO frequency weighting Wh [Ah(8)]. There was some epidemiological evidence for a threshold value of Ep,d for the onset of VWF in the vibration-exposed workers.

Conclusions

Measures of daily vibration exposure evaluated with the vascular weighting Wp performed better for the predictions of VWF than those obtained with the frequency weighting Wh recommended in ISO 5349-1.
Literatur
Bovenzi M (2002) Finger systolic blood pressure indices for the diagnosis of vibration-induced white finger. Int Arch Occup Environ Health 75:20–28
Bovenzi M (2010) A prospective cohort study of exposure-response relationship for vibration-induced white finger. Occup Environ Med 67:38–46CrossRef
Bovenzi M (2012) Epidemiological evidence for new frequency weightings of hand-transmitted vibration. Ind Health 50:377–387CrossRef
Bovenzi M, The Italian Study Group on Physical Hazards in the Stone Industry (1994) Hand-arm vibration and dose-response relation for vibration induced white finger among quarry drillers and stone carvers. Occup Environ Med 51:603–611CrossRef
Bovenzi M, Petronio L, Di Marino F (1980) Epidemiological survey of shipyard workers exposed to hand-arm vibration. Int Arch Occup Environ Health 46:251–266CrossRef
Bovenzi M, Franzinelli A, Strambi F (1988) Prevalence of vibration induced white finger and assessment of vibration exposure among travertine workers in Italy. Int Arch Occup Environ Health 61:25–34CrossRef
Bovenzi M, Lindsell CJ, Griffin MJ (2000) Acute vascular response to the frequency of vibration transmitted to the hand. Occup Environ Med 57:422–430CrossRef
Bovenzi M, Della Vedova A, Nataletti P, Alessandrini B, Poian T (2005) Work-related disorders of the upper limb in female workers using orbital sanders. Int Arch Occup Environ Health 78:303–310CrossRef
Bovenzi M, Pinto I, Picciolo F, Mauro M, Ronchese F (2011) Frequency weightings of hand-transmitted vibration for predicting vibration-induced white finger. Scand J Work Environ Health 37:244–252CrossRef
Bovenzi M, Prodi A, Mauro M (2015) Relationships of neurosensory disorders and reduced work ability to alternative frequency weightings of hand-transmitted vibration. Scand J Work Environ Health 41:247–258CrossRef
Bovenzi M, Prodi A, Mauro M (2016) A longitudinal study of neck and upper limb musculoskeletal disorders and alternative measures of vibration exposure. Int Arch Occup Environ Health 89:923–933CrossRef
Brammer AJ, Pitts PM (2012a) Hand-arm vibration risk—editorial. Ind Health 50:341CrossRef
Brammer AJ, Pitts PM (2012b) Frequency weighting for vibration-induced white finger compatible with exposure-response models. Ind Health 50:397–411CrossRef
Brammer AJ, Yu G (2017) Health effects from exposure of the hand to mechanical shocks. Institut für Arbeitsschutz der Deutschen Gesetzlichen Unfallversicherung (IFA) Report, 5. DGUV, Berlin, pp 31–38
Burnham KP, Anderson DR (2004) Multimodel inference: understanding AIC and BIC in model selection. Sociol Methods Res 33:261–304CrossRef
Bylund SL, Burgstrom L, Knutsson A (2002) A descriptive study of women injured by hand-arm vibration. Ann Occup Hyg 46:299–307
Comité Européen de Normalisation (CEN) (1996) Mechanical vibration—guide to the health effects of vibration on the human body. CR Report 12349. CEN, Brussels
Cui J (2007) QIC program and model selection in GEE analyses. Stata J 7:209–220CrossRef
The European Parliament and the Council of the European Union (2002) The European Parliament and the Council of the European Union (2002) On the minimum health and safety requirements regarding the exposure of workers to the risks arising from physical agents (vibration), (16th individual Directive within the meaning of Article 16(1) of Directive 89/391/EEC). Directive 2002/44/EC. Official Journal of the European Communities, 6 July 2002, L 117/13–19
Dong RG, Welcome DE, Wu JZ (2005) Frequency weightings based on biodynamics of fingers-hand-arm system. Ind Health 43:516–526CrossRef
Griffin MJ (1997) Measurement, evaluation, and assessment of occupational exposures to hand-transmitted vibration. Occup Environ Med 54:73–89CrossRef
Griffin MJ (2012) Frequency-dependence of psychophysical and physiological responses to hand-transmitted vibration. Ind Health 50:354–369CrossRef
International Organization for Standardization (ISO) (2001) Mechanical vibration—measurement and evaluation of human exposure to handtransmitted vibration—part 1: general requirements. ISO 5349-1. ISO, Geneva
International Organization for Standardization (ISO) (2005) Mechanical vibration and shock—cold provocation tests for the assessment of peripheral vascular function—part 2: measurement and evaluation of finger systolic blood pressure. In: ISO 14835-2. ISO, Geneva
International Organization for Standardization (ISO) (2017) Mechanical vibration—measurement and evaluation of human exposure to hand-transmitted vibration—supplementary method for assessing risk of vascular disorders. ISO/TR 18570. ISO, Geneva
Krajnak K, Riley DA, Wu J, McDowell T, Welcome DE, Xu XS, Dong RG (2012) Frequency-dependent effects of vibration on physiological systems: experiments with animals and other human surrogates. Ind Health 50:343–353CrossRef
Lesage M (1998) Work-related diseases and occupational diseases: the ILO international list. In: Stellman JM (ed) Encyclopaedia of occupational health and safety, vol I, 4th edn. International Labour Office, Geneva, pp 26.2–26.6
Lindsell CJ (2005) Test battery for assessing vascular disturbances of fingers. Environ Health Prev Med 10:341–350CrossRef
Mahbub MH, Harada N (2011) Review of different quantification methods for the diagnosis of digital vascular abnormalities in hand-arm vibration syndrome. J Occup Health 53:241–249CrossRef
Miwa T (1967) Evaluation methods for vibration effect. Part 3: measurement of thresholds and equal sensation contours on hand for vertical and horizontal vibrations. Ind Health 5:213–220CrossRef
Negro C, Rui F, D’Agostin F, Bovenzi M (2008) Use of color charts for the diagnosis of finger whiteness in vibration-exposed workers. Int Arch Occup Environ Health 81:633–638CrossRef
Olsen N, Hagberg M, Ekenvall L, Futatsuka M, Harrison J, Nasu Y, Welsh C, Yamada S, Yoshida M (1995) Clinical and laboratory diagnostics of vascular symptoms induced by hand-arm vibration. Report from discussions in a working group. In: Gemne G, Brammer AJ, Hagberg M, Lundström R, Nilsson T (eds). Proceedings of the Stockholm workshop 94. Hand-arm vibration syndrome: diagnostics and quantitative relationships to exposure. Arb Hälsa 5:181–186
Palmer KT, Griffin MJ, Syddall H, Pannett B, Cooper C, Coggon D (2000) Prevalence of Raynaud’s phenomenon in Great Britain and its relation to hand transmitted vibration: a national postal survey. Occup Environ Med 57:448–452CrossRef
Thompson AJL, Griffin MJ (2009) Effect of the magnitude and frequency of hand-transmitted vibration on finger blood flow during and after exposure to vibration. Int Arch Occup Environ Health 82:1151–1162CrossRef
Tominaga Y (2005) New frequency weighting of hand-arm vibration. Ind Health 43:509–515CrossRef
VIBRISKS (2007) Risks of Occupational Vibration Exposures. FP5 Project No. QLK4-2002-02650. European Commission Quality of Life and Management of Living Resources Programme. Southampton, UK: Human Factors Research Unit, Institute of Sound and Vibration Research, University of Southampton (updated 28 February 2007). http://​www.​vibrisks.​soton.​ac.​uk. Accessed 30 Jan 2018
Ye Y, Griffin MJ (2016) Assessment of two alternative standardised tests for the vascular component of the hand-arm vibration syndrome. Occup Environ Med 73:701–708CrossRef
Metadaten
Titel
Risk assessment of vascular disorders by a supplementary hand–arm vascular weighting of hand-transmitted vibration
verfasst von
Massimo Bovenzi
Iole Pinto
Francesco Picciolo
Publikationsdatum
01.10.2018
Verlag
Springer Berlin Heidelberg
Erschienen in
International Archives of Occupational and Environmental Health / Ausgabe 1/2019
Print ISSN: 0340-0131
Elektronische ISSN: 1432-1246
DOI
https://doi.org/10.1007/s00420-018-1363-y

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