A Study of Vibration Response Characteristics of the Human Hand-Arm System

Prolonged exposure to vibration transmitted to the operators of hand-held power tools has been related to symptoms of vibration white finger (VWF) disease, also known as "Raynaud’s Phenomenon of Occupational Origin". Many subjective and objective epidemiological, and clinical studies have established the prevalence rates and vibration related symptoms, such as VWF disease, loss of muscle strength, injuries to bones and joints, and disorders of central nervous system. The mechanism leading to these disorders, however, remains almost unknown. The biodynamic response characteristics of the hand-arm system, subject to handle vibration are investigated through: (i) measurement and synthesis of driving point mechanical impedance; (ii) study of hand-grip pressure distribution to gain an insight to a probable mechanism leading to VWF disease; (iii) study of electromyography of finger flexor muscles to enhance an understanding of the vibration induced loss of muscle and grip strength; and (iv) study of vibration transmissibility of the hand-arm system and the protection offered by so-called "anti-vibration" gloves.

The biodynamic response of the hand-arm system is investigated for sinusoidal as well as stochastic excitations in the three orthogonal directions of vibration. Linear and nonlinear analytical models with constant and grip force dependent parameters are developed to characterize the dynamic response of the hand-arm system. A comparison of the model response to the measured data revealed that the nonlinear analytical models with grip force dependent parameters can accurately predict the hand-arm vibration response for different hand-grip forces over a wide frequency range of tool vibration. Further, the measured data reported in the literature are synthesized to propose a range of idealized values of driving point impedance in all the three directions of vibration.

The hand response to impinged and transmitted vibration is investigated through measurement and analysis of distribution of dynamic forces at the hand-handle interface, and electrical activity of the finger flexor muscles. A sensing grid comprising of flexible pressure sensors was fabricated to measure the interface pressure under static and dynamic conditions. The pressure distribution is related to impaired blood flow, and thus to the probable mechanism leading to the onset of VWF disease. The primary injury mechanisms are further investigated using electromyography (EMG) of the finger flexor muscles, the muscle group responsible for exerting the grip force on the handle. Analysis of the results showed that EMG of muscle group under vibration is as high as 6 times the EMG measured under static grip condition. A methodology is proposed to measure the hand-transmitted vibration and to assess the performance of the anti-vibration gloves. Analytical models are developed to characterize the vibration transmissibility of the hand-arm and the protective gloves. The study concluded that anti-vibration gloves attenuate vibration only in a limited frequency band.

Year	Entry
1982	Harada N, Matsumoto T. Various function tests on the upper extremities and the vibration syndrome. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:71-76.
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	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.
1987	Brammer AJ, Taylor W, Lundborg G. Sensorineural stages of the hand-arm vibration syndrome. Scand J Work Environ Health. August 1987;13(4):279-283.
1982	Reynolds DD, Wasserman DE, Basel R, Taylor W, Doyle TE, Asburry W. Vibration acceleration measured on 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; 1982:225-238.
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, 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.
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	Brammer AJ. Relations between vibration exposure and the development of the vibration syndrome. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:283-290.
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.
1975	James PB, Yates JR, Pearson JCG. An investigation of the prevalence of bone cysts in hands exposed to vibration. In: 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; 1975:43-51.
1990	Griffin MJ. Handbook of Human Vibration. London, UK: Academic Press Limited; 1990.
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.
1982	Harrison RT, Murphy WA. Motorcycle handlebar vibration. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:239-244.
1982	Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982.
1982	Pelnar PV, Gibbs GW, Pathak BP. A pilot investigation of the vibration syndrome in forestry workers of eastern Canada. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:173-187.
1982	Taylor W, Brammer AJ. Vibration effects on the hand and arm in industry: an introduction and review. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:1-12.
1975	Hempstock TI, O’Connor DE. The measurement of hand-arm vibration. In: 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; 1975:111-122.
1975	Pelmear PL, Taylor W, Pearson JCG. Raynaud’s phenomenon in grinders. In: 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; 1975:21-30.
1949	Agate JN. An outbreak of cases of Raynaud's phenomenon of occupational origin. Br J Ind Med. July 1949;6(3):144-163.
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.
1987	Gemne G, Pyykkö I, Taylor W, Pelmear PL. 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). Scand J Work Environ Health. 1987;13(4):275-278.

Year

Entry

1982

Harada N, Matsumoto T. Various function tests on the upper extremities and the vibration syndrome. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:71-76.

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

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.

1987

Brammer AJ, Taylor W, Lundborg G. Sensorineural stages of the hand-arm vibration syndrome. Scand J Work Environ Health. August 1987;13(4):279-283.

1982

Reynolds DD, Wasserman DE, Basel R, Taylor W, Doyle TE, Asburry W. Vibration acceleration measured on 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; 1982:225-238.

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, 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.

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

Brammer AJ. Relations between vibration exposure and the development of the vibration syndrome. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:283-290.

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.

1975

James PB, Yates JR, Pearson JCG. An investigation of the prevalence of bone cysts in hands exposed to vibration. In: 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; 1975:43-51.

1990

Griffin MJ. Handbook of Human Vibration. London, UK: Academic Press Limited; 1990.

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.

1982

Harrison RT, Murphy WA. Motorcycle handlebar vibration. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:239-244.

1982

Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982.

1982

Pelnar PV, Gibbs GW, Pathak BP. A pilot investigation of the vibration syndrome in forestry workers of eastern Canada. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:173-187.

1982

Taylor W, Brammer AJ. Vibration effects on the hand and arm in industry: an introduction and review. In: Brammer A., Taylor W, eds. Vibration Effects on the Hand and Arm in Industry. New York, NY: John Wiley & Sons; 1982:1-12.

1975

Hempstock TI, O’Connor DE. The measurement of hand-arm vibration. In: 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; 1975:111-122.

1975

Pelmear PL, Taylor W, Pearson JCG. Raynaud’s phenomenon in grinders. In: 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; 1975:21-30.

1949

Agate JN. An outbreak of cases of Raynaud's phenomenon of occupational origin. Br J Ind Med. July 1949;6(3):144-163.

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.

1987

Gemne G, Pyykkö I, Taylor W, Pelmear PL. 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). Scand J Work Environ Health. 1987;13(4):275-278.

Year	Entry
2004	Sinha KK, Shanker A. A comparison of anthropomorphic model responses of human hand-arm system. In: Proceedings of the 10th International Conference on Hand-Arm Vibration. June 7-11, 2004; Las Vegas, NV.209-219.
2001	Dong RG, Rakheja S, Schopper AW, Han B, Smutz WP. Hand-transmitted vibration and biodynamic response of the human hand-arm: a critical review. Crit Rev Biomed Eng. 2001;29(4):393-439.
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.
2002	Rakheja S, Wu JZ, Dong RG, Schopper AW, Boileau P-É. A comparison of biodynamic models of the human hand–arm system for applications to hand-held power tools. J Sound Vibrat. January 3, 2002;249(1):55-82.

Year

Entry

2004

Sinha KK, Shanker A. A comparison of anthropomorphic model responses of human hand-arm system. In: Proceedings of the 10th International Conference on Hand-Arm Vibration. June 7-11, 2004; Las Vegas, NV.209-219.

2001

Dong RG, Rakheja S, Schopper AW, Han B, Smutz WP. Hand-transmitted vibration and biodynamic response of the human hand-arm: a critical review. Crit Rev Biomed Eng. 2001;29(4):393-439.

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.

2002

Rakheja S, Wu JZ, Dong RG, Schopper AW, Boileau P-É. A comparison of biodynamic models of the human hand–arm system for applications to hand-held power tools. J Sound Vibrat. January 3, 2002;249(1):55-82.