Hand-transmitted vibration and biodynamic response of the human hand-arm: a critical review

wbldb

Dong, R. G.¹; Rakheja, S.¹; Schopper, A. W.¹; Han, B.¹; Smutz, W. P.¹

Hand-transmitted vibration and biodynamic response of the human hand-arm: a critical review

Crit Rev Biomed Eng. 2001;29(4):393-439

©2001 Begell House, Inc.

Affiliations

¹Engineering & Control Technology Branch, NIOSH, 1095 Willowdale Road, MS 2201, Morgantown, WV 26505
Abstract and keywords

Hand-arm vibration syndrome (HAVS) has been associated with prolonged exposure to vibration transmitted to the human hand-arm system from hand-held power tools, vibrating machines, or hand-held vibrating workpieces. The biodynamic response of the human hand and arm to hand transmitted vibration (HTV) forms an essential basis for effective evaluations of exposures, vibration-attenuation mechanisms, and potential injury mechanisms. The biodynamic response to HTV and its relationship to HAVS are critically reviewed and discussed to highlight the advances and the need for further research. In view of its strong dependence on the nature of HTV and the lack of general agreement on the characteristics of HTV, the reported studies are first reviewed to enhance an understanding of HTV and related issues. The characteristics of HTV and relevant unresolved issues are discussed on the basis of measured data, proposed standards, and measurement methods, while the need for further developments in measurement systems is emphasized. The studies on biodynamic response and their findings are grouped into four categories based on the methodology used and the objective. These include studies on (1) through-the-hand-arm response, expressed in terms of vibration transmissibility; (2) to-the-hand response, expressed in terms of the force-motion relationship of the hand-arm system; (3) to-the-hand biodynamic response function, expressed in terms of vibration energy absorption; and (4) computer modeling of the biodynamic response characteristics.

Keywords: hand-arm vibration; hand-transmitted vibration; biodynamics; vibration transmission; hand-arm system; power tools vibration; modeling
Links

DOI: 10.1615/CritRevBiomedEng.v29.i4.20

PubMed: 11822480

WoS: 000173248100002

Cited Works (27)

Year	Entry
1995	Kihlberg S. Biodynamic response of the hand-arm system to vibration from an impact hammer and a grinder. Int J Ind Ergon. July 1995;16(1):1-8.
1975	Taylor W, Pelmear PL, eds. Vibration White Finger in Industry: A Report, Comprising Edited Versions of Papers Submitted to the Department of Health and Social Security in December 1973. London: Academic Press; 1975.
1982	Griffin MJ, Macfarlane CR, Norman CD. The transmission of vibration to the hand and the influence of gloves. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:103-116.
1986	Sakakibara H, Kondo T, Miyao M, Yamada S, Nakagawa T, Kobayashi F, Ono Y. Transmission of hand-arm vibration to the head. Scand J Work Environ Health. August 1986;12(4):359-361.
1986	Jahn R, Hesse M. Applications of hand-arm models in the investigation of the interaction between man and machine. Scand J Work Environ Health. August 1986;12(4):343-346.
1982	Reynolds DD, Wasserman DE, Basel R, Taylor W. Energy entering the hands of operators of pneumatic tools used in chipping and grinding operations. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:133-146.
1976	Pyykkö I, Färkkilä M, Toivanen J, Korhonen O, Hyvärinen J. Transmission of vibration in the hand-arm system with special reference to changes in compression force and acceleration. Scand J Work Environ Health. June 1976;2(2):87-95.
1984	Reynolds DD, Basel R, Wasserman DE, Taylor W. A study of hand vibration on chipping and grinding operators, III: power levels into the hands of operators of pneumatic tools used in chipping and grinding operations. J Sound Vibrat. August 22, 1984;95(4):515-524.
1984	Reynolds DD, Falkenberg RJ. A study of hand vibration on chipping and grinding operators, II: four-degree-of-freedom lumped parameter model of the vibration response of the human hand. J Sound Vibrat. August 22, 1984;95(4):499-514.
1982	Brammer AJ. Threshold limit for hand-arm vibration exposure throughout the workday. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:291-301.
1982	Griffin MJ. Hand-arm vibration standards and dose-effect relationships. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:259-268.
1986	Mechanical Vibration: Guidelines for the Measurement and the Assessment of Human Exposure to Hand-Transmitted Vibration. ISO Standard ISO 5349. [ISO Standard thesis]. Geneva, Switzerland: International Organization for Standardization; 1986.
1997	Burström L. The influence of biodynamic factors on the mechanical impedance of the hand and arm. Int Arch Occup Environ Health. June 1997;69(6):437-446.
1979	Miwa T, Yonekawa Y, Nara A, Kanada K, Baba K. Vibration isolators for portable vibrating tools, I: a grinder. Ind Health. 1979;17(2):85-101.
1977	Reynolds DD, Angevine EN. Hand-arm vibration, II: vibration transmission characteristics of the hand and arm. J Sound Vibrat. March 22, 1977;51(2):255-265.
1968	Miwa T. Evaluation methods for vibration effect, VI: measurements of unpleasant and tolerance limit levels for sinusoidal vibrations. Ind Health. 1968;6(1-2):18-27.
1998	Bovenzi M. Exposure-response relationship in the hand-arm vibration syndrome: an overview of current epidemiology research. Int Arch Occup Environ Health. November 1998;71(8):509-519.
1990	Griffin MJ. Handbook of Human Vibration. London, UK: Academic Press Limited; 1990.
1997	Griffin MJ. Measurement, evaluation, and assessment of occupational exposures to hand-transmitted vibration. Occup Environ Med. February 1997;54(2):73-89.
1994	Griffin MJ. Foundations of hand-transmitted vibration standards. Nagoya J Med Sci. May 1994;57(suppl):147-164.
1995	Gurram R, Rakheja S, Brammer AJ. Driving-point mechanical impedance of the human hand-arm system: synthesis and model development. J Sound Vibrat. February 23, 1995;180(3):439-458.
1971	Abrams CF. Modeling the Vibrational Characteristics of the Human Hand by the Driving Point Mechanical Impedance Method [PhD thesis]. Raleigh, NC: North Carolina State University; 1971.
1993	Gurram R. A Study of Vibration Response Characteristics of the Human Hand-Arm System [PhD thesis]. Montreal, QC: Concordia Universit; September 1993.
1972	Reynolds DD, Soedel W. Dynamic response of the hand-arm system to a sinusoidal input. J Sound Vibrat. April 8, 1972;21(3):339-353.
1986	Dandanell R, Engström K. Vibration from riveting tools in the frequency range 6 Hz-10 MHz and Raynaud's phenomenon. Scand J Work Environ Health. 1986;12(4):338-342.
1975	Miwa T. Mechanical impedance of human body in various postures. Ind Health. 1975;13(1-2):1-22.
1994	Louda L, Hartlová D, Muff V, Smolíková L, Svobod L. Impulsive vibration and exposure limit. Nagoya J Med Sci. May 1994;57(suppl):165-172.

Cited By (12)

Year	Entry
2004	Dong RG, McDowell TW, Welcome DE, Wu JZ. An investigation of the relationship between vibration-induced white finger and power absorption. In: Proceedings of the 10th International Conference on Hand-Arm Vibration. June 7-11, 2004; Las Vegas, NV.161-167.
2004	Dong RG, Warren C, Welcome DE, McDowell TW, Wu JZ. A comparison and evaluation of reported mechanical impedance data of the human hand-arm system. In: Proceedings of the 10th International Conference on Hand-Arm Vibration. June 7-11, 2004; Las Vegas, NV.221-227.
2004	Haasnoot RA, Mansfield NJ. Effect of push/pull and grip force on perception of steering wheel vibration. In: Proceedings of the 10th International Conference on Hand-Arm Vibration. June 7-11, 2004; Las Vegas, NV.287-293.
2004	Wasserman DE, Reynolds DD. A unique historical perspective of occupational hand-arm vibration in the U.S from 1918-2004. In: Proceedings of the 10th International Conference on Hand-Arm Vibration. June 7-11, 2004; Las Vegas, NV.3-10.
2005	Dong RG, Wu JZ, Welcome DE. Recent advances in biodynamics of human hand-arm system. Ind Health. July 2005;43(3):449-471.
2007	Dong RG, Dong JH, Wu JZ, Rakheja S. Modeling of biodynamic responses distributed at the fingers and the palm of the human hand–arm system. J Biomech. 2007;40(10):2335-2340.
2004	Dong RG, Welcome DE, McDowell TW, Wu JZ. Biodynamic response of human fingers in a power grip subjected to a random vibration. J Biomech Eng. August 2004;126(4):447-457.
2006	Dong RG, Welcome D., McDowell TW, Wu JZ. Measurement of biodynamic response of human hand–arm system. J Sound Vibrat. July 2006;294(3):807-827.
2008	Dong JH, Dong RG, Rakheja S, Welcome DE, McDowell TW, Wu JZ. A method for analyzing absorbed power distribution in the hand and arm substructures when operating vibrating tools. J Sound Vibrat. April 8, 2008;311(3-5):1286-1304.
2013	Dong RG, Welcome DE, McDowell TW, Wu JZ. Modeling of the biodynamic responses distributed at the fingers and palm of the hand in three orthogonal directions. J Sound Vibrat. February 2013;332(4):1125-1140.
2021	Dong RG, Wu JZ, Xu XS, Welcome DE, Krajnak K. A review of hand–arm vibration studies conducted by US NIOSH since 2000. Vibration. 2021;4(2):482-528.
2009	Adewusi SA. Distributed Biodynamic Characteristics of the Human Hand-Arm System Coupled With Vibrating Handles and Power Tools [PhD thesis]. Concordia University; August 2009.