The transmission of vertical whole-body vibration to the body segments of standing subjects

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Harazin, B.¹; Grzesik, J.¹

The transmission of vertical whole-body vibration to the body segments of standing subjects

J Sound Vibrat. 1998;215(4):775-787

©1998 Academic Press

Affiliations

¹Institute of Occupational Medicine and Environmental Health, 41-200 Sosnowiec, 13 Kościelna str, Poland
Abstract

The effects of body postures in standing position on the transmission of whole-body vibration to body segments have been investigated. The magnitude acceleration in the Z-axis direction of six body segments: the metatarsus, ankle, knee, hip, shoulder and head has been measured during exposure to random vibration. Ten male subjects exposed to floor vibration stood in ten postures described as: relaxed standing, legs stiffened, legs bent, standing on the toes, standing on one leg with or without support of the other foot and standing in steps. The transmissibility of random vibration from the floor to the body points was calculated at frequencies ranging from 4–250 Hz in 1/3 octave bands. The body postures of the subjects modified both the width of the resonant bands and the transmissibility values. The squared multiple correlation coefficient (R²) between the transmissibility and the 16 variables (10 postures, 6 body segments) was not very high at resonance frequencies in the range 4–12·5 Hz but above 25 Hz, 50% of the variability in the transmissibility was due to the postures and the body segments.
Links

DOI: 10.1006/jsvi.1998.1675

PubMed: 18348698

PubMedCentral: 18348698

WoS: 000075624500013
History

Accepted: 1998-04-07
Cited Works (1)

Year Entry

1962 Coermann RR. The mechanical impedance of the human body in sitting and standing position at low frequencies. Hum Factors. October 1962;4(5):227-253.

Cited By (23)

Year	Entry
2014	Goggins K, Godwin A, Boudreau-Lariviere C, Eger T. Examination of vibration transmissibility from floor to metatarsal and floor to ankle between 25 and 50Hz. In: Proceedings of the 5th American Conference on Human Vibration. June 10-13, 2014; Guelph, ON.65-66.
2018	Goggins K, Tarabini M, Lievers B, Eger T. Standing centre of pressure alters the vibration transmissibility response of the foot. In: Proceedings of the 7th American Conference on Human Vibration. June 13-15, 2018; Seattle, WA.33-34.
2015	Eger T, Leduc M, Goggins K, Thompson A, House R. Understanding the link between occupational exposure to foot-transmitted vibration and the development of vibration-induced white-feet. In: Proceedings of the 13th International Conference on Hand-Arm Vibration. October 13-15, 2015; Beijing, China.82-83.
2013	Wee H, Voloshin A. Transmission of vertical vibration to the human foot and ankle. Ann Biomed Eng. June 2013;41(6):1172-1180.
2021	Chadefaux D, Moorhead AP, Marzaroli P, Marelli S, Marchetti E, Tarabini M. Vibration transmissibility and apparent mass changes from vertical whole-body vibration exposure during stationary and propelled walking. Appl Ergon. January 2021;90:103283.
2019	Goggins KA, Tarabini M, Lievers WB, Eger TR. Biomechanical response of the human foot when standing in a natural position while exposed to vertical vibration from 10–200 Hz. Ergonomics. May 2019;6(5):644-656.
2019	Goggins KA, Tarabini M, Lievers WB, Eger TR. Standing centre of pressure alters the vibration transmissibility response of the foot. Ergonomics. June 2019;62(9):1202-1213.
2021	Jalali P, Ettefagh MM, Hassannejad R. Recognizing the viscoelastic safe area of work shoe sole in the sitting posture with vibration transmissibility in the vertical direction. Int J Ind Ergon. January 1, 2021;81:103053.
2019	Nawayseh N, Hamdan S. Apparent mass of the standing human body when using a whole-body vibration training machine: effect of knee angle and input frequency. J Biomech. January 3, 2019;82:291-298.
2008	Kiiski J, Heinonen A, Järvinen TL, Kannus P, Sievänen H. Transmission of vertical whole body vibration to the human body. J Bone Miner Res. August 2008;23(8):1318-1325.
2016	Goggins K, Godwin A, Lariviere C, Eger T. Study of the biodynamic response of the foot to vibration exposure. Occup Ergon. 2016;13(1):53-66.
2020	Goggins KA, Oddson BE, Lievers WB, Eger TR. Anatomical locations for capturing magnitude differences in foot-transmitted vibration exposure, determined using multiple correspondence analysis. Theor Issues Egron Sci. 2020;21(5):562-576.
2021	Vance B, Goggins KA, Godwin A, Oddson BE, Eger TR. Evaluation of the inter-rater and intra-rater reliability of a protocol for the measurement of foot-transmitted vibration. Theor Issues Egron Sci. 2021;22(2):218-235.
2021	Tarabini M, Eger T, Goggins K, Moorhead AP, Goi F. Effect of the shoe sole on the vibration transmitted from the supporting surface to the feet. Vibration. 2021;4(4):743-758.
2011	Leduc MG. Examination of Vibration Characteristics and Transmissibility Properties of "Anti-Vibration" Mats for Workers Exposed to Vibration Via the Feet [Master's thesis]. Sudbury, Ontario: Laurentian University; 2011.
2013	Goggins KA. Foot-Transmitted Vibration: Exposure Characteristics and the Biodynamic Response of the Foot [Master's thesis]. Sudbury, Ontario: Laurentian University; 2013.
2016	Byrnell HK. Personal Protective Equipment as a Control Strategy to Reduce Foot-Transmitted Vibration [Master's thesis]. Sudbury, ON: Laurentian University; 2016.
2018	Vance B. Establishing a Protocol for the Measurement of Human Exposure to Foot-Transmitted Vibration [Master's thesis]. Sudbury, ON: Laurentian University; 2018.
2019	Goggins KA. Measuring and Modelling Human Response to Foot-Transmitted Vibration Exposure [PhD thesis]. Sudbury, ON: Laurentian University; 2019.
2012	Wee HB. The Dynamic Model of the Foot and Ankle System [PhD thesis]. Bethlehem, PA: Lehigh University; September 2012.
2019	Maugeri S. Modelling the Response of the Human Feet to Vertical Whole-Body Vibration [Master's thesis]. Lecco, Italy: Politecnico Di Milano; 2019.
2002	Giacomin JA. An Experimental Investigation of the Vibrational Comfort of Child Safety Seats [PhD thesis]. University of Sheffield; December 2002.
2013	Vienneau JA. Comparison of Leg Muscle Activity and Vibration Propagation During Whole Body Vibration Between Older and Young Adult Populations [Master's thesis]. Calgary, AB: University of Calgary; December 2013.